CN211500761U - U-shaped post-processor urea mixing device - Google Patents

Abstract

The utility model belongs to the technical field of diesel engine tail gas after-treatment equipment, and relates to a urea mixing device of a U-shaped after-treatment device, which comprises an upper end cover and a lower end cover which are connected with each other; the upper part of the cyclone tube assembly is arranged in the upper end cover, the lower part of the cyclone tube assembly penetrates out of the upper end cover and extends into the lower end cover, and the upper end part of the cyclone tube assembly extends out of the upper hole of the upper end cover; the axial end of the upper end cover is closed, the other end of the upper end cover is opened, the axial end of the lower end cover is closed, the other end of the lower end cover is opened, and a rotational flow plate is arranged at the opening end of the cavity of the lower end cover to form rotational flow. The mixing device adopts the matching use of the rotational flow structure and the wire mesh weaving unit to carry out the crushing and decomposition of urea, thereby reducing the crystallization risk of urea; meanwhile, the distribution uniformity of urea and NH3 on the front end face of the SCR catalyst is improved by adopting a slotted hole pipe and a rotational flow plate structure.

Description

U-shaped post-processor urea mixing device

Technical Field

The utility model belongs to the technical field of diesel engine tail gas aftertreatment equipment, a U type aftertreatment ware urea mixing arrangement is related to.

Background

In the application technology of the SCR system, the key in the whole process is how to uniformly mix the injected urea and the engine exhaust gas and complete the secondary crushing of the urea and reduce the crystallization risk of the urea at the position of a mixer. The U-shaped after-treatment device is used as a key component of an after-treatment system of a commercial vehicle in the six-emission stage of China, and a urea mixing device of the U-shaped after-treatment device is not mature.

The common mixing units mostly use fin structures or fiber units to achieve the crushing. The fin structure is limited in urea crushing effect due to the fact that the fin structure is large in machining difficulty of micro fins and the like. In recent years, the problem of urea crushing and crystallization is also solved by adopting a cyclone structure, but when the cyclone structure is applied to U-shaped aftertreatment, the rotating airflow direction is perpendicular to the airflow direction in the SCR catalyst, so that the distribution uniformity of NH3 on the end face of the SCR catalyst is difficult to ensure. Meanwhile, the urea is difficult to decompose quickly due to the limited breaking capacity of the rotational flow structure on the urea.

Disclosure of Invention

The utility model provides a U-shaped post-processor urea mixing device, aiming at the problems, the mixing device adopts a rotational flow structure and a wire mesh weaving unit to be matched for use to crush and decompose urea, thereby reducing the risk of urea crystallization; meanwhile, the distribution uniformity of urea and NH3 on the front end face of the SCR catalyst is improved by adopting a slotted hole pipe and a rotational flow plate structure.

According to the technical scheme of the utility model: the utility model provides a U type aftertreatment ware urea mixing arrangement which characterized in that: comprises an upper end cover and a lower end cover which are connected with each other;

the upper part of the cyclone tube assembly is arranged in the upper end cover, the lower part of the cyclone tube assembly penetrates out of the upper end cover and extends into the lower end cover, and the upper end part of the cyclone tube assembly extends out of the upper hole of the upper end cover;

the axial end of the upper end cover is closed, the other end of the upper end cover is opened, the axial end of the lower end cover is closed, the other end of the lower end cover is opened, and a rotational flow plate is arranged at the opening end of the cavity of the lower end cover to form rotational flow.

As a further improvement, the spiral-flow tube assembly comprises a spiral-flow tube with a circumferential surface uniformly distributed and provided with guide vanes, the axial inlet end of the spiral-flow tube is provided with a nozzle base, the axial outlet end connecting surface of the spiral-flow tube is provided with a hole tube with a plurality of holes, and the axial other end of the hole tube is provided with a plugging cover.

As a further improvement, the notch has been seted up on the hole pipe surface, the notch is towards lower end cap venthole one side.

As a further improvement, the axial exit end of whirl pipe connects the silk screen unit, and silk screen unit lower extreme fastening connecting pipe connects V type flange on the exit end of connecting pipe, V type flange under the axial entrance point of hole pipe, go up V type flange, lower V type flange through connecting staple bolt locking connection.

As a further improvement of the utility model, the spiral-flow tube is arranged in the upper end cover, and the hole tube is arranged in the lower end cover.

As a further improvement of the utility model, the center of the spiral-flow plate (5) is provided with a flow guide pipe (5-1), the outer side of the spiral-flow plate corresponding to the flow guide pipe is provided with a round wind scooper, and the outer ring of the wind scooper is provided with a plurality of through holes.

As a further improvement of the utility model, the air outlet of the wind scooper is parallel to the surface of the rotational flow plate.

As a further improvement of the utility model, the upper end cover and the lower end cover are connected through the locking of the connecting clamp.

As a further improvement, the axial opening end of the upper end cover is provided with a baffle plate, and the baffle plate is provided with an opening.

The technical effects of the utility model reside in that: the mixing device in the prior art mostly adopts a stainless steel finned mixing unit, and has limited crushing effect on urea. The utility model adopts the cyclone tube and the wire mesh unit to replace a fin mixer, so that the crushing effect is better;

compared with the existing mixing unit adopting fiber elements to replace stainless steel fins, the wire mesh unit has the advantages of better heat conduction effect, small heat loss and the like, and can effectively prevent the risk of urea crystallization under the working condition of low exhaust temperature;

the existing mixing device adopting the cyclone tube structure alone has the problem that the wall of the outer hole of the cyclone tube is easy to crystallize, and the average diameter of urea particles can be greatly reduced after the metal wire mesh structure is adopted;

the utility model adopts the hole pipe structure with a slot in the middle, can guide the rotating airflow in the cyclone pipe to the middle position of the end surface of the SCR catalyst, and then utilizes the cyclone plate to fully mix urea, thereby greatly improving the mixing uniformity of urea;

although the swirl plate structure has good functions of rotating and mixing urea, strong swirl easily causes the urea to be thrown to the edge of the SCR catalyst under the action of centrifugal force, so that the concentration of the urea at the middle position is lower. The cyclone plate structure with the middle part provided with the conical hole can greatly improve the condition that urea at the middle position of the SCR catalyst is lower.

Drawings

Fig. 1 is an isometric view of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is a right side view of the present invention.

Fig. 4 is an exploded view of the present invention.

Fig. 5 is a schematic view of the whirl plate of the present invention.

Fig. 6 is a schematic view of the swirl tube assembly of the present invention.

Fig. 7 is the exploded view of the swirl tube assembly of the present invention.

Detailed Description

The following description will further describe embodiments of the present invention with reference to the accompanying drawings.

In the drawings 1-7, the device comprises an upper end cover 1, a cyclone tube component 2, a nozzle base 2-1, a cyclone tube 2-2, a screen unit 2-3, a connecting tube 2-4, an upper V-shaped flange 2-5, a connecting hoop 2-6, a lower V-shaped flange 2-7, a perforated tube 2-8, a plugging cover 2-9, a connecting hoop 3, a lower end cover 4, a cyclone plate 5, a flow guide tube 5-1, an air guide cover 5-2, a through hole 5-3 and the like.

As shown in fig. 1~3, the utility model relates to a U type aftertreatment ware urea mixing arrangement, including upper end cover 1, lower end cover 4, upper end cover 1 and lower end cover 4 both structurally all axial one end seal, the other end opening, upper end cover 1, 3 locking connection of clamp are connected through connecting on the 4 both surfaces of lower end cover, 2 upper ends of spiral-flow tube subassembly are arranged in upper end cover 1's cavity, the lower extreme extends to in the lower end cover 4 after passing upper end cover 1, the downthehole top of upper end cover 1 is stretched out from to the upper end of spiral-flow tube subassembly 2, the cavity inner wall welding whirl board 5 of lower end cover 4, in order to ensure at the during operation, obtain strong whirl.

As shown in fig. 4, 6 and 7, the cyclone tube assembly 2 comprises cyclone tubes 2-2, the surfaces of which are uniformly provided with guide vanes, axial inlet ends of the cyclone tubes 2-2 are provided with nozzle bases 2-1, the nozzle bases 2-1 extend out from upper end holes of an upper end cover 1, axial outlet ends of the cyclone tubes 2-2 are sequentially connected with wire mesh units 2-3 and connecting tubes 2-4, and outlet ends of the connecting tubes 2-4 are fastened with V-shaped flanges 2-5; the cyclone tube component 2 further comprises a hole tube 2-8, one axial end of the hole tube 2-8 is connected with a blocking cover 2-9, the other axial end of the hole tube 2-8 is connected with a lower V-shaped flange 2-7, the upper V-shaped flange 2-5 and the lower V-shaped flange 2-7 are connected in a locking mode through a connecting hoop 2-6, and a notch is formed in the surface of the hole tube 2-8 and faces to one side of an air outlet of the lower end cover 4. The inner wall of the hoop connected with the hoops 2-6 is provided with two locking grooves which are respectively matched with the surface bulges of the lower V-shaped flange 2-7 and the upper V-shaped flange 2-5; in order to realize the effective work of the nozzle base 2-1, a through hole is arranged through the rotation center of the nozzle base 2-1. The cyclone tube 2-2 is arranged in the upper end cover 1, and the hole tube 2-8 is arranged in the lower end cover 4.

As shown in fig. 4, the air inlet end of the inner cavity of the upper end cover 1 is further provided with an air deflector, and the air deflector is provided with a gap to ensure that the inlet air is directed towards the guide vanes of the cyclone tube 2-2, so that a strong cyclone is obtained in the cyclone tube 2-2.

As shown in FIG. 5, a flow guide pipe 5-1 is arranged at the rotation center of the rotational flow plate 5, a circle of wind scoopers 5-2 are uniformly arranged on the rotational flow plate 5 corresponding to the outer side of the flow guide pipe 5-1, and the wind scoopers 5-2 are in a convex conical shell shape. The air outlet direction of the wind scooper 5-2 is flush with the surface of the rotational flow plate 5.

As shown in fig. 1 and 4, the axial opening end surface of the upper end cap 1 is provided with a threaded connection portion, and the axial opening end surface of the lower end cap 4 is provided with a threaded connection portion.

The working process of the utility model is as follows: when exhaust gas discharged by an engine passes through the DPF and enters the U-shaped aftertreatment urea mixing device from the flange of the upper end cover 1, the air flow enters the cyclone tube 2-2 to form strong rotating air flow, the urea sprayed from the urea nozzle base 2-1 is driven to rotate downwards, and the urea is crushed and mixed on the metal wire mesh unit 2-3. The wire mesh has good heat-conducting property, and can keep heat for a long time, thereby greatly reducing the risk of urea crystallization caused by temperature loss under the low-temperature working condition. Meanwhile, the wire mesh units 3-3 are formed by rolling metal filaments, so that the crushing effect and the decomposition rate of urea can be greatly improved. The urea enters the hole pipe 2-8 after being crushed, and further crushing and decomposition are realized. The middle part of the hole pipe 2-8 is provided with a slotted hole which can guide airflow to be discharged from the middle position of the SCR catalyst, and then strong rotational flow in the axial direction of the SCR catalyst is formed through the rotational flow plate 5, so that the mixing uniformity of NH3 on the front end face of the SCR catalyst is improved.

Claims (9)

1. The utility model provides a U type aftertreatment ware urea mixing arrangement which characterized in that: comprises an upper end cover (1) and a lower end cover (4) which are connected with each other;

the upper part of the cyclone tube component (2) is arranged in the upper end cover (1), the lower part of the cyclone tube component penetrates through the upper end cover (1) and extends into the lower end cover (4), and the upper end part of the cyclone tube component (2) extends out of the upper hole of the upper end cover (1);

the axial end of the upper end cover (1) is closed, the other end of the upper end cover is open, the axial end of the lower end cover (4) is closed, the other end of the lower end cover is open, and a cyclone plate (5) is arranged at the opening end of the cavity of the lower end cover (4) to form cyclone.

2. The U-shaped aftertreatment urea mixing device of claim 1, wherein: the cyclone tube component (2) comprises cyclone tubes (2-2) with guide vanes uniformly distributed on the circumferential surface, nozzle bases (2-1) are arranged at the axial inlet ends of the cyclone tubes (2-2), hole tubes (2-8) with a plurality of holes are arranged on the connecting surfaces of the axial outlet ends of the cyclone tubes (2-2), and blocking covers (2-9) are arranged at the axial other ends of the hole tubes (2-8).

3. The U-shaped aftertreatment urea mixing device of claim 2, wherein: the surface of the hole pipe (2-8) is provided with a notch, and the notch faces to one side of the air outlet hole of the lower end cover (4).

4. The U-shaped aftertreatment urea mixing device of claim 2, wherein: the axial outlet end of the spiral-flow pipe (2-2) is connected with the wire mesh unit (2-3), the lower end of the wire mesh unit (2-3) is fastened with the connecting pipe (2-4), the outlet end of the connecting pipe (2-4) is connected with the upper V-shaped flange (2-5), the axial inlet end of the perforated pipe (2-8) is connected with the lower V-shaped flange (3-7), and the upper V-shaped flange (2-5) and the lower V-shaped flange (3-7) are connected in a locking mode through the connecting hoop (3-6).

5. The U-shaped aftertreatment urea mixing device of claim 2, wherein: the cyclone tube (2-2) is arranged in the upper end cover (1), and the hole tube (2-8) is arranged in the lower end cover (4).

6. The U-shaped aftertreatment urea mixing device of claim 1, wherein: the center of the rotational flow plate (5) is provided with a flow guide pipe (5-1), a circle of wind scooper (5-2) is arranged on the rotational flow plate (5) corresponding to the outer side of the flow guide pipe (5-1), and the outer ring of the wind scooper (5-2) is provided with a plurality of through holes (5-3).

7. The U-shaped aftertreatment urea mixing device of claim 6, wherein: the air outlet direction of the air guide cover (5-2) is parallel to the surface of the rotational flow plate (5).

8. The U-shaped aftertreatment urea mixing device of claim 1, wherein: the upper end cover (1) and the lower end cover (4) are connected in a locking mode through the connecting clamp (3).

9. The U-shaped aftertreatment urea mixing device of claim 1, wherein: the axial opening end of the upper end cover (1) is provided with a baffle plate, and the baffle plate is provided with an opening.

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