CN213955335U - Heat accumulation type incinerator structure for reducing back-blowing dead angle - Google Patents

Abstract

The utility model relates to a regenerative incinerator reduces blowback dead angle structure, it includes the plenum the indoor left side of plenum is equipped with the backup pad one side is equipped with left lower partition panel, left side lower partition panel is the vertical panel left side lower partition panel upper portion is equipped with upper left partition panel, upper left partition panel is the hang plate, upper left partition panel upper end is close to the backup pad the other lower right partition panel that is equipped with of lower left partition panel, the partition panel is the vertical panel under the right side partition panel upper portion is equipped with upper right partition panel under the right side, upper right partition panel is the hang plate be equipped with the reinforcement framework between lower left partition panel and the lower right partition panel, leave the interval between reinforcement framework lower extreme and the plenum bottom be equipped with in the reinforcement framework and sweep the pipeline. The utility model discloses make wind chamber bottom reduce the dead angle, bottom waste gas can sweep totally, burns burning furnace discharge to reach standard.

Description

Heat accumulation type incinerator structure for reducing back-blowing dead angle

Technical Field

The utility model belongs to the technical field of waste gas heat accumulation formula burns burning furnace, concretely relates to reduce blowback dead angle structure in stove.

Background

The existing waste gas heat accumulating type incinerator, when in normal operation and sweeps an air distribution chamber, because the box body of the air distribution chamber is large, the dead angle of waste gas at the bottom is more, and the dead angle can not be completely replaced, the discharge of the incinerator can not reach the standard.

Disclosure of Invention

The purpose of the invention is as follows: the utility model aims at overcoming the not enough among the prior art, provide one kind and make wind chamber bottom reduce the dead angle, bottom waste gas can sweep totally, burns burning furnace discharge to reach standard's heat accumulation formula and burns burning furnace and reduce blowback dead angle structure.

The technical scheme is as follows: in order to solve the technical problem, a regenerative incinerator reduces blowback dead angle structure, it includes the wind distribution room the indoor left side of wind distribution is equipped with the backup pad one side is equipped with partition panel under the left side, partition panel is the vertical plate under the left side partition panel upper portion is equipped with upper left partition panel under the left side, upper left partition panel is the hang plate, upper left partition panel upper end is close to the backup pad the other partition panel under the right side that is equipped with of partition panel under the left side, the partition panel is the vertical plate under the right side partition panel upper portion is equipped with upper right partition panel under the right side, upper right partition panel is the hang plate be equipped with the enhancement framework between partition panel under the left side and the partition panel under the right side, leave the interval between enhancement framework lower extreme and the wind distribution room bottom be equipped with in the enhancement framework and sweep the pipeline.

Further, the support plate, the lower left partition plate, the upper left partition plate, the lower right partition plate, and the upper right partition plate are all porous plates.

Further, the upper end of the reinforcing frame body is not higher than the lower end of the upper left partition plate.

Further, the left lower partition plate and the right lower partition plate are the same in size and shape.

Further, the upper left partition panel and the upper right partition panel are the same in size and shape and are symmetrically arranged with the center line of the reinforcing frame body.

Furthermore, the upper end of the supporting plate is connected with the top end of the air distribution chamber, and the lower end of the supporting plate is connected with the bottom end of the air distribution chamber.

Furthermore, the purging pipeline is arranged close to one side of the inner wall of the reinforcing frame body.

Further, the lower end of the purging pipeline is higher than the lower end of the reinforcing frame body, and the lower port of the purging pipeline is a groove.

Has the advantages that: compared with the prior art, the utility model, it is showing the advantage and is: the utility model has reasonable overall structure, the left and right partition boards inside the air distribution chamber greatly reduce the internal space of the air distribution chamber, the blowing air enters from the blowing pipeline, the blowing air is quickly and upwards backflushed by utilizing the space structure reduced by the strengthening frame body, the waste gas in the furnace is thoroughly replaced, the smoke of the incinerator reaches the standard and is discharged, the left upper partition board and the right upper partition board have the same size and shape and are symmetrically arranged by the central line of the strengthening frame body, the left upper partition board and the right upper partition board are both inclined boards, the left upper partition board is connected with the left lower partition board, the right upper partition board is connected with the right lower partition board, the left lower partition board and the right lower partition board are both vertical boards, and backup pad, left lower partition panel, upper left partition panel, lower right partition panel and upper right partition panel all are the perforated plate, do benefit to the equipartition that waste gas admitted air, do benefit to burn burning furnace normal steady operation.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

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

As shown in FIG. 1, a regenerative incinerator reduces blowback dead angle structure, it includes air distribution chamber 1 the left side is equipped with backup pad 2 in the air distribution chamber 1, the upper end of backup pad 2 links to each other with the top of air distribution chamber 1, the lower extreme of backup pad 2 links to each other with the bottom of air distribution chamber 1 backup pad 2 one side is equipped with left lower partition panel 3, left lower partition panel 3 is the vertical plate partition panel 3 is equipped with upper left partition panel 4 on the upper portion of left lower partition panel 3, upper left partition panel 4 is the hang plate, upper left partition panel 4 upper end is close to backup pad 2 left lower partition panel 3 is other to be equipped with lower right partition panel 5, lower right partition panel 5 is the vertical plate partition panel 5 upper right lower partition panel 5 upper portion is equipped with upper right partition panel 6, upper right partition panel 6 is the hang plate, backup pad 2, lower left partition panel 3, upper left partition panel 4, partition panel, Partition panel 5 and upper right partition panel 6 all are the perforated plate under the right side, the big or small shape of partition panel 3 and partition panel 5 under the right side is the same under a left side, the big or small shape of partition panel 4 and upper right partition panel 6 is the same and upper left partition panel 4 and upper right partition panel 6 set up with the central line symmetry of framework 7 be equipped with framework 7 under a left side between partition panel 3 and the lower right partition panel 5, leave the interval between framework 7 lower extreme and the 1 bottom of wind distribution room, framework 7's upper end is not higher than the lower extreme of upper left partition panel 4 be equipped with in the framework 7 and sweep pipeline 8, it leans on establishing in framework 7 inner wall one side to sweep pipeline 8, the lower extreme that sweeps pipeline 8 is higher than framework 7's lower extreme and sweeps pipeline 8's lower port is the groove. The utility model has reasonable overall structure, the left and right partition boards inside the air distribution chamber greatly reduce the internal space of the air distribution chamber, the blowing air enters from the blowing pipeline, the blowing air is quickly and upwards backflushed by utilizing the space structure reduced by the strengthening frame body, the waste gas in the furnace is thoroughly replaced, the smoke of the incinerator reaches the standard and is discharged, the left upper partition board and the right upper partition board have the same size and shape and are symmetrically arranged by the central line of the strengthening frame body, the left upper partition board and the right upper partition board are both inclined boards, the left upper partition board is connected with the left lower partition board, the right upper partition board is connected with the right lower partition board, the left lower partition board and the right lower partition board are both vertical boards, and backup pad, left lower partition panel, upper left partition panel, lower right partition panel and upper right partition panel all are the perforated plate, do benefit to the equipartition that waste gas admitted air, do benefit to burn burning furnace normal steady operation.

The utility model provides a thinking and method, the method and the way of specifically realizing this technical scheme are many, above only the utility model discloses a preferred embodiment should point out, to the ordinary technical personnel in this technical field, not deviating from the utility model discloses under the prerequisite of principle, can also make a plurality of improvements and moist decorations, these improvements should also be regarded as the utility model discloses a protection range, each component that does not make clear and definite in this embodiment all can be realized with prior art.

Claims (8)

1. The utility model provides a heat accumulation formula burns burning furnace and reduces blowback dead angle structure which characterized in that: the air distribution chamber comprises an air distribution chamber (1), a support plate (2) is arranged on the left side in the air distribution chamber (1), a left lower partition plate (3) is arranged on one side of the support plate (2), the left lower partition plate (3) is a vertical plate, a left upper partition plate (4) is arranged on the upper portion of the left lower partition plate (3), the left upper partition plate (4) is an inclined plate, the upper end of the left upper partition plate (4) is close to the support plate (2), a right lower partition plate (5) is arranged beside the left lower partition plate (3), the right lower partition plate (5) is a vertical plate, a right upper partition plate (6) is arranged on the upper portion of the right lower partition plate (5), the right upper partition plate (6) is an inclined plate, a reinforcing frame body (7) is arranged between the left lower partition plate (3) and the right lower partition plate (5), and a space is reserved between the lower end of the reinforcing frame body (7) and the bottom end of the air distribution chamber (1), a purging pipeline (8) is arranged in the reinforcing frame body (7).

2. The regenerative incinerator dead angle reducing structure as claimed in claim 1, wherein: the supporting plate (2), the lower left partition plate (3), the upper left partition plate (4), the lower right partition plate (5) and the upper right partition plate (6) are all porous plates.

3. The regenerative incinerator dead angle reducing structure as claimed in claim 1, wherein: the upper end of the reinforcing frame body (7) is not higher than the lower end of the upper left partition plate (4).

4. The regenerative incinerator dead angle reducing structure as claimed in claim 1, wherein: the left lower partition plate (3) and the right lower partition plate (5) are the same in size and shape.

5. The regenerative incinerator dead angle reducing structure as claimed in claim 1, wherein: the size and shape of the upper left partition plate (4) and the upper right partition plate (6) are the same, and the upper left partition plate (4) and the upper right partition plate (6) are symmetrically arranged by the central line of the reinforcing frame body (7).

6. The regenerative incinerator dead angle reducing structure as claimed in claim 1, wherein: the upper end of the supporting plate (2) is connected with the top end of the air distribution chamber (1), and the lower end of the supporting plate (2) is connected with the bottom end of the air distribution chamber (1).

7. The regenerative incinerator dead angle reducing structure as claimed in claim 1, wherein: the purging pipeline (8) is arranged close to one side of the inner wall of the reinforcing frame body (7).

8. The regenerative incinerator dead angle reducing structure as claimed in claim 1, wherein: the lower end of the purging pipeline (8) is higher than the lower end of the reinforcing frame body (7), and the lower port of the purging pipeline (8) is a groove.

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