CN217988850U - Flue gas treatment equipment using activated carbon adsorption - Google Patents

Abstract

The utility model provides an use activated carbon adsorption's flue gas treatment device, include: the equipment body comprises a flue gas inlet and a gas outlet, the axis of the gas outlet and the axis of the flue gas inlet are collinear, a gas inlet assembly is arranged on the inner wall of the flue gas inlet, the gas inlet assembly comprises an inner annular surface, a third gas discharge plate is arranged on the inner annular surface, a plurality of third gas holes are formed in the third gas discharge plate, and the inner contour of each third gas hole is in a conical shape in an inclined mode; the utility model discloses a set up the third board of releasing on the anchor ring including, set up the third gas pocket on the third board of releasing, make the flue gas by this internal of entering into equipment of extrusion back dispersion, strengthened flue gas treatment effect, set up first baffle and second baffle on the anchor ring including in addition, realized can changing the effect of total air inlet area, and then adjust the air input, effectual reinforcing filter effect.

Description

Flue gas treatment equipment using activated carbon adsorption

Technical Field

The utility model relates to a flue gas treatment technical field particularly, relates to an use activated carbon adsorption's flue gas treatment facility.

Background

Activated carbon adsorption's flue gas treatment device is when using, the air inlet is direct to be linked together with the row's mouth of external exhaust gas is direct, because the inside active carbon adsorption component of activated carbon adsorption's flue gas treatment device is located the inside both sides of equipment box, the flue gas that directly lets in can not direct action on the active carbon adsorption component, need contact the effect of adsorbing the inside miscellaneous dirt of flue gas with active carbon adsorption component under the promotion of atmospheric pressure, the flue gas can not fully contact with active carbon adsorption component when gas lets in comparatively slowly, can lead to the flue gas effect variation of adsorption treatment.

Therefore, it is necessary to develop a flue gas treatment device using activated carbon adsorption with good treatment effect.

SUMMERY OF THE UTILITY MODEL

The utility model provides an use activated carbon adsorption's flue gas treatment device to solve above-mentioned problem.

In order to achieve the above object, the embodiment of the utility model provides an use flue gas treatment device of active carbon adsorption, include: the equipment body, the equipment body includes flue gas inlet and gas discharge mouth, gas discharge mouth's axial lead with the axial lead that the flue gas admitted air is same straight line, be provided with the subassembly that admits air on the flue gas inlet inner wall, the subassembly that admits air includes interior anchor ring, interior anchor ring sets up on the flue gas inlet inner wall, install the third board of releasing on the interior anchor ring, a plurality of third gas pockets have been seted up on the third board of releasing, the toper that the interior profile of third gas pocket set up for the slope, the bore in third gas pocket is followed the flue gas inlet to the gas discharge mouth direction reduces gradually.

Furthermore, an arc-shaped ring groove is formed in the inner ring surface, and the vertical section of the arc-shaped ring groove is 3/4 of an arc.

Furthermore, a plurality of limiting grooves are formed in the inner wall of the arc-shaped ring groove.

Furthermore, the air inlet assembly further comprises a first partition plate, a baffle ring is installed at the edge position of the first partition plate, and one side of the baffle ring is abutted to the inner annular surface.

Furthermore, a spring cylinder is embedded in one side of the retaining ring, and one end of the spring cylinder is flush with the outer wall of the retaining ring.

Furthermore, a hemisphere is installed at one end of the spring cylinder, and the outer wall of the hemisphere is abutted to the inner wall of the arc-shaped annular groove.

Furthermore, a plurality of first air holes are formed in the first partition plate.

Furthermore, a second partition plate is arranged between the first partition plate and the third air discharge plate and fixed on the inner annular surface.

Furthermore, a plurality of second air holes are formed in the second partition plate, and when the first partition plate is rotated, the first air holes are partially overlapped with the second air holes.

Compared with the prior art, the embodiment of the utility model provides a following beneficial effect has: through set up the third board of releasing on anchor ring including, set up the third gas pocket on the third board of releasing, make the flue gas by this internal, strengthened flue gas treatment effect of entering into of extrusion back dispersion, set up first baffle and second baffle on anchor ring including in addition, realized can changing the effect of total air inlet area, and then adjust the air input, effectual reinforcing filter effect.

Drawings

The present invention will be further explained with reference to the drawings and examples.

FIG. 1 is a perspective view of a preferred embodiment of a flue gas treatment device using activated carbon adsorption according to the present invention;

FIG. 2 is a perspective view of a preferred embodiment of the air inlet assembly of the present invention;

FIG. 3 is a perspective cross-sectional view of a preferred embodiment of the intake assembly of the present invention;

fig. 4 is an enlarged schematic structural view of a portion a in fig. 3 according to the present invention.

Wherein, 1, the equipment body; 2. a flue gas inlet; 3. a gas discharge port; 4. an air intake assembly; 41. an inner ring surface; 411. an arc-shaped ring groove; 412. a limiting groove; 413. a spring case; 414. a hemisphere; 42. a first separator; 421. a first air hole; 422. a baffle ring; 43. a second separator; 431. a second air hole; 44. a third vent panel; 441. and a third air hole.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. The drawings are simplified schematic drawings, which illustrate the basic structure of the present invention in a schematic manner, and thus show only the components related to the present invention.

Referring to fig. 1 to 2, fig. 1 is a perspective view of a preferred embodiment of a flue gas treatment device using activated carbon adsorption according to the present invention; fig. 2 is a perspective view of the preferred embodiment of the air inlet assembly of the present invention. As shown in fig. 1 to 2, the utility model provides a flue gas treatment device using activated carbon adsorption, which comprises: equipment body 1, equipment body 1 includes flue gas inlet 2 and gas discharge port 3, the axial lead of gas discharge port 3 and the axial lead that the flue gas admitted air are collinear, be provided with air inlet assembly 4 on 2 inner walls of flue gas inlet, it needs to explain further that, equipment body 1's inside is provided with the active carbon adsorption subassembly, it is further, in order to strengthen the filtration adsorption effect, the active carbon adsorption subassembly sets up in the inside both sides of equipment body 1 box, consequently, after letting in the flue gas from flue gas inlet 2, can arrange to equipment body 1 outside from gas discharge port 3 after the active carbon adsorption subassembly filters the absorption.

Referring to fig. 2 in conjunction with fig. 3, fig. 3 is a perspective sectional view of a preferred embodiment of the intake assembly of the present invention. As shown in fig. 2 and 3, the air inlet assembly 4 includes an inner annular surface 41, the inner annular surface 41 is disposed on an inner wall of the flue gas inlet 2, a third air discharging plate 44 is mounted on the inner annular surface 41, a plurality of third air holes 441 are formed in the third air discharging plate 44, an inner contour of the third air holes 441 is a cone shape that is obliquely disposed, and an aperture of the third air holes 441 is gradually reduced from the flue gas inlet 2 to the gas discharging port 3, and the main purpose of the design is to allow flue gas to be pressurized and dispersed by the third air holes 441 and introduced into the apparatus body 1.

Please continue to refer to fig. 3. As shown in fig. 3, an arc-shaped ring slot 411 is formed on the inner ring surface 41, a vertical cross section of the arc-shaped ring slot 411 is a 3/4 arc, and it should be further described that the arc-shaped ring slot 411 is used for the first partition plate 42 to rotate inside, and the hemisphere 414 is always attached to an inner wall of the arc-shaped ring slot 411 while rotating. The inner wall of the arc-shaped ring slot 411 is provided with a plurality of limiting slots 412, and when the hemisphere 414 drives the first partition plate 42 to rotate to align with the limiting slots 412, the hemisphere 414 extends into the hemisphere 414.

Referring to fig. 3 in conjunction with fig. 4, fig. 4 is an enlarged schematic view of a portion a in fig. 3 according to the present invention. As shown in fig. 3 and 4, the air intake assembly 4 further includes a first partition plate 42, a baffle ring 422 is mounted at an edge position of the first partition plate 42, and one side of the baffle ring 422 abuts against the inner annular surface 41. The outer side wall of the retaining ring 422 abuts against the inner ring surface 41 to enhance the stability of the first partition plate 42 in the rotating process, a spring barrel 413 is embedded in one side of the retaining ring 422, and one end of the spring barrel 413 is flush with the outer wall of the retaining ring 422. One end of the spring barrel 413 is provided with a hemisphere 414, the spring barrel 413 is used for applying acting force to the hemisphere 414 at different positions, and the outer wall of the hemisphere 414 is abutted against the inner wall of the arc-shaped ring groove 411. The first partition plate 42 is provided with a plurality of first air holes 421.

Please continue to refer to fig. 2 in conjunction with fig. 3. As shown in fig. 2 and 3, a second partition plate 43 is provided between the first partition plate 42 and the third gas discharge plate 44, and the second partition plate 43 is fixed to the inner ring surface 41. The second partition 43 is provided with a plurality of second air holes 431, when the first partition 42 is rotated, the first air holes 421 are partially overlapped with the second air holes 431, and the overlapping area of the first air holes 421 and the second air holes 431 can be changed by rotating the first partition 42, so as to change the size of the total air inlet area.

The utility model discloses a concrete work flow is: before the gas lets in 2 positions of flue gas inlet 2, the accessible rotates first baffle 42, changes first gas pocket 421 and the overlapping area of second gas pocket 431, and when hemisphere 414 stretched into the spacing groove 412 of different positions, total inlet area's size was different, and the regulation back gas can exist between third gas release plate 44 and the second baffle 43, by the pressurization of third gas pocket 441 and dispersed letting in inside the equipment body 1 again.

To sum up, the beneficial effects of the utility model are that: through set up third gassing board 44 on interior anchor ring 41, set up third gas hole 441 on third gassing board 44, make the flue gas by extrusion back dispersion enter into equipment body 1 in, strengthened flue gas treatment effect, set up first baffle 42 and second baffle 43 on anchor ring 41 in addition, realized the effect that can change total air inlet area, and then adjust the air input, effectual reinforcing filter effect.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (9)

1. A flue gas treatment device using activated carbon adsorption, comprising: the gas-liquid separation equipment comprises an equipment body (1), the equipment body (1) comprises a gas inlet (2) and a gas discharge port (3), the axial lead of the gas discharge port (3) and the axial lead of the gas inlet are the same straight line, a gas inlet assembly (4) is arranged on the inner wall of the gas inlet (2), the gas inlet assembly (4) comprises an inner ring surface (41), the inner ring surface (41) is arranged on the inner wall of the gas inlet (2), a third gas discharge plate (44) is arranged on the inner ring surface (41), a plurality of third gas holes (441) are formed in the third gas discharge plate (44), the inner contour of each third gas hole (441) is a cone obliquely arranged, and the caliber of each third gas hole (441) is gradually reduced from the gas inlet (2) to the direction of the gas discharge port (3).

2. The flue gas treatment equipment using activated carbon adsorption according to claim 1, wherein: an arc-shaped ring groove (411) is formed in the inner ring surface (41), and the vertical section of the arc-shaped ring groove (411) is a 3/4 arc.

3. The flue gas treatment apparatus using activated carbon adsorption according to claim 2, wherein: a plurality of limiting grooves (412) are formed in the inner wall of the arc-shaped ring groove (411).

4. A flue gas treatment apparatus using activated carbon adsorption according to claim 3, wherein: the air inlet assembly (4) further comprises a first partition plate (42), a baffle ring (422) is installed at the edge position of the first partition plate (42), and one side of the baffle ring (422) is abutted to the inner annular surface (41).

5. The flue gas treatment apparatus using activated carbon adsorption according to claim 4, wherein: one side of the retaining ring (422) is embedded with a spring cylinder (413), and one end of the spring cylinder (413) is flush with the outer wall of the retaining ring (422).

6. The flue gas treatment apparatus using activated carbon adsorption according to claim 5, wherein: hemisphere (414) are installed to the one end of spring case (413), the outer wall of hemisphere (414) with arc annular groove (411) inner wall offsets.

7. The flue gas treatment apparatus using activated carbon adsorption according to claim 6, wherein: the first clapboard (42) is provided with a plurality of first air holes (421).

8. The flue gas treatment apparatus using activated carbon adsorption according to claim 7, wherein: a second partition plate (43) is arranged between the first partition plate (42) and the third air release plate (44), and the second partition plate (43) is fixed on the inner ring surface (41).

9. The flue gas treatment apparatus using activated carbon adsorption according to claim 8, wherein: the second partition plate (43) is provided with a plurality of second air holes (431), and when the first partition plate (42) is rotated, the first air holes (421) are partially overlapped with the second air holes (431).

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