CN218328204U - Ash cleaning device for ash outlet of garbage incinerator - Google Patents

Abstract

The utility model is suitable for a waste incineration technical field provides an ash removal device for a waste incinerator ash outlet, which comprises an ash removal box, the interior of the ash removal box is divided into a left space, a middle space and a right space by a first clapboard, a bottom ash removal mechanism is arranged in the middle space, a side wall ash removal mechanism is arranged in the left space, and an ash collection mechanism is arranged in the right space; a rotating motor is driven in the bottom cleaning mechanism to drive a first rotating rod to rotate, and a bottom cleaning brush is driven to rotate through the linkage of a chain wheel and a chain in the bottom cleaning mechanism, so that ash adhered to the bottom in the incinerator is cleaned; the side wall rotating mechanism drives the first bevel gear and the second bevel gear to rotate through the first rotating rod, and drives the chain wheel and the chain in the side wall rotating mechanism to rotate, so that the side wall cleaning brush is driven to clean ash adhered to the inner wall of the incinerator; the swept ash is sucked into the ash collecting box through an ash sucking machine in the ash collecting mechanism through an ash sucking pipe, and the ash is treated.

Description

Ash cleaning device for ash outlet of garbage incinerator

Technical Field

The utility model belongs to the technical field of msw incineration, especially, relate to an ash removal device for msw incineration furnace ash outlet.

Background

Garbage is after the latter half of burning the completion, because the rubbish kind is many, humidity is big, often can bond together, especially some rubbers, domestic waste such as plastics, can lead to the slag to glue together after the burning is accomplished, if the volume ratio of bonding is bigger, can block up the slag notch completely when withdrawing from burning furnace, thereby force to stop the stove, wait the temperature cooling back of getting off, clear up by the manual work again, mainly poke the slag bridge that the slag becomes with iron rod etc. from the slag notch edge, thereby dredge and retreat the slag notch.

The remaining ashes in back need be cleared up to the rubbish waste residue, is convenient for carry out the msw incineration electricity generation next time, and current rubbish ashes are mostly the manual work and clear up, and is inefficient, and the clearance degree is also not high, designs a dust removal device for this and solves above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

The utility model provides an ash removal device for waste incinerator ash outlet aims at solving the problem of designing among the above-mentioned background art.

The utility model discloses a realize like this, a ash removal device for waste incinerator ash outlet, including the deashing case, separate for left side space, middle part space and right side space respectively through first baffle in the deashing case, install bottom deashing mechanism in the middle part space, install lateral wall deashing mechanism in the left side space, install album ash mechanism in the right side space, the universal wheel is installed to the bottom of deashing case.

Preferably, the bottom deashing mechanism includes rotating electrical machines, separate for upper space, middle level space and lower floor's space respectively through two second baffles in the space of middle part, rotating electrical machines installs in the upper strata on the second baffle, rotating electrical machines's output is connected with first rotary rod, first rotary rod runs through two-layerly the second baffle with the bottom of deashing case.

Preferably, in the middle layer space, a first bevel gear is sleeved on the first rotating rod, a first chain wheel is sleeved below the first bevel gear on the first rotating rod, a first chain is connected to the first chain wheel in a transmission manner, and a plurality of second chain wheels are connected to the front side and the rear side of the first chain wheel in a transmission manner.

Preferably, every the second sprocket all overlaps and locates on the second rotary rod, the top of second rotary rod all rotates to be connected in the upper strata in the second baffle, just the bottom of second rotary rod runs through the lower floor respectively the second baffle with the bottom of deashing case.

Preferably, in the space of lower floor, in the cover is equipped with the third sprocket on the first rotary rod, just in the space of lower floor, in every it is equipped with the fourth sprocket all to overlap on the second rotary rod, third sprocket and every it is connected with the second chain to take turns to the equal transmission of fourth.

Preferably, the third sprocket and every the left and right sides of fourth sprocket in corresponding all the transmission is connected with the fifth sprocket in the second chain, every the fifth sprocket all overlaps and locates on the third rotary rod, every the top of third rotary rod all rotates to be connected in the lower floor in the second baffle.

Preferably, the bottom end of each third rotary rod penetrates through the bottom of the ash removal box, and the bottom ends of the first rotary rod, the second rotary rod and the third rotary rod are connected with bottom cleaning brushes.

Preferably, the side wall ash removing mechanism includes a second bevel gear, the second bevel gear is engaged with the first bevel gear, the first bevel gear is sleeved on a fourth rotating rod, the fourth rotating rod penetrates through the left side of the first partition plate and the left wall of the ash removing box, a sixth chain wheel is sleeved on the fourth rotating rod in the left side space, and the sixth chain wheel is in transmission connection with a third chain.

Preferably, the upper and lower both sides of sixth sprocket in the transmission is connected with a plurality of seventh sprocket in the third chain, every the seventh sprocket all overlaps and locates on the fifth rotary rod, the right-hand member of fifth rotary rod all rotates and connects in the left in the first baffle, just the left end of fifth rotary rod all runs through the left wall of deashing case, fourth rotary rod and every the left end of fifth rotary rod all is connected with the lateral wall brush cleaner.

Preferably, the ash collecting mechanism comprises an ash sucking machine, two third partition plates fixedly connected with are arranged in the right space, the ash sucking machine is installed between the two third partition plates, the lower end of the ash sucking machine is connected with an ash sucking pipe, the ash sucking pipe penetrates through the bottom of the ash removing box, the upper end of the ash sucking machine is connected with an ash collecting box through a pipeline, and the ash collecting box is installed on the third partition plate on the upper layer.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses a deashing device for an ash outlet of a garbage incinerator, a driving rotating motor in a bottom cleaning mechanism drives a first rotating rod to rotate, and a bottom cleaning brush is driven to rotate through the linkage of a chain wheel and a chain in the bottom cleaning mechanism, so that ash adhered to the bottom in the incinerator is cleaned;

the side wall rotating mechanism drives the first bevel gear and the second bevel gear to rotate through the first rotating rod, and drives the chain wheel and the chain in the side wall rotating mechanism to rotate, so that the side wall cleaning brush is driven to clean ash adhered to the inner wall of the incinerator;

the ash that cleans and rises is inhaled to the collection ash incasement through inhaling the ash pipe via the ash machine of inhaling in the ash collection mechanism, accomplishes the processing to ashes, and labour saving and time saving also can improve the efficiency that ashes were handled.

Drawings

Fig. 1 is a schematic view of the internal structure of the present invention;

FIG. 2 isbase:Sub>A schematic sectional view taken along the line A-A of the present invention;

fig. 3 is a schematic structural diagram of a first chain in the present invention;

fig. 4 is a schematic structural view of a second chain of the present invention;

fig. 5 is a schematic structural view of a third chain of the present invention;

in the figure:

1. a dust removal box; 2. a first separator; 3. a second separator; 4. a third separator;

5. a bottom ash removal mechanism; 51. a rotating electric machine; 52. a first rotating rod; 53. a first bevel gear; 54. a first sprocket; 55. a first chain; 56. a second sprocket; 57. a second rotating rod; 58. a third sprocket; 59. A fourth sprocket; 510. a second chain; 511. a fifth sprocket; 512. a third rotating rod; 513. a bottom cleaning brush;

6. a side wall ash removal mechanism; 61. a second bevel gear; 62. a fourth rotating rod; 63. a sixth sprocket; 64. a third chain; 65. a seventh sprocket; 66. a fifth rotating lever; 67. side wall cleaning brushes;

7. a dust collecting mechanism; 71. a dust suction machine; 72. a dust collection box; 73. a dust suction pipe;

8. a universal wheel.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-5, the present invention provides a technical solution: the utility model provides an ash removal device for waste incinerator ash outlet, includes deashing case 1, separates respectively for left side space, middle part space and right side space through first baffle 2 in the deashing case 1, installs bottom deashing mechanism 5 in the middle part space, installs lateral wall deashing mechanism 6 in the space of left side, installs ash collecting mechanism 7 in the space of right side, and universal wheel 8 is installed to the bottom of deashing case 1.

The bottom ash removal mechanism 5 is responsible for cleaning the ash adhered to the bottom in the incinerator; the side wall ash cleaning mechanism 6 is responsible for cleaning the ash adhered to the inner wall of the incinerator; the ash collecting mechanism 7 is responsible for sucking away the lifted ash, namely, the ash is removed;

the arrangement of the universal wheels 8 is convenient for moving the dust removing box 1.

Further, bottom deashing mechanism 5 includes rotating electrical machines 51, separates respectively for upper space, middle level space and lower floor's space through two second baffles 3 in the middle part space, and rotating electrical machines 51 installs on the second baffle 3 on upper strata, and rotating electrical machines 51's output is connected with first rotary rod 52, and first rotary rod 52 runs through the bottom of two-layer second baffle 3 and deashing case 1.

Specifically, in the middle layer space, a first bevel gear 53 is sleeved on the first rotating rod 52, a first chain wheel 54 is sleeved on the first rotating rod 52 below the first bevel gear 53, a first chain 55 is connected to the first chain wheel 54 in a transmission manner, and a plurality of second chain wheels 56 are respectively connected to the front side and the rear side of the first chain wheel 54 in a transmission manner in the first chain wheel 55.

As shown in fig. 3, the first chain 55 is connected with a first chain wheel 54 and four second chain wheels 56 in a driving manner, and the four second chain wheels 56 are respectively sleeved on four second rotating rods 57;

the rotating motor 51 drives the first rotating rod 52 to drive the first chain wheel 54 to rotate, the first chain wheel 54 drives the first chain 55 to transmit, and the first chain 55 drives the four second chain wheels 56 to rotate.

Usually, each second sprocket 56 is sleeved on the second rotating rod 57, the top end of the second rotating rod 57 is rotatably connected in the second partition board 3 on the upper layer, and the bottom end of the second rotating rod 57 penetrates through the second partition board 3 on the lower layer and the bottom of the dust box 1 respectively.

In addition, in the lower space, the first rotating rod 52 is sleeved with a third chain wheel 58, in the lower space, each second rotating rod 57 is sleeved with a fourth chain wheel 59, and the third chain wheel 58 and each fourth chain wheel 59 are connected with a second chain 510 in a transmission manner.

As shown in fig. 4, four second rotating rods 57 are respectively sleeved with four fourth chain wheels 59 in the lower layer space, the four fourth chain wheels 59 and one third chain wheel 58 are respectively connected in a transmission manner in the second chain 510, and the total of five second chains 510

When the first rotating rod 52 rotates, the third chain wheel 58 is driven to rotate and the corresponding second chain 510 is driven to transmit; when the second chain wheel 56 rotates, the corresponding second rotating rod 57 and the fourth chain wheel 59 are driven to rotate, and the corresponding second chain 510 is driven to drive.

In addition, the fifth chain wheels 511 are respectively connected to the left and right sides of the third chain wheel 58 and each fourth chain wheel 59 in the corresponding second chain 510 in a transmission manner, each fifth chain wheel 511 is sleeved on the third rotating rods 512, and the top end of each third rotating rod 512 is rotatably connected to the second partition plate 3 on the lower layer.

The five second chains 510 are respectively connected with two fifth chain wheels 511 in a transmission way except for the third chain wheel 58 and the fourth chain wheel 59, and ten fifth chain wheels 511 are formed in total;

when the second chain 510 is driven, it drives the corresponding fifth chain wheel 511 and third rotating rod 512 to rotate.

Further, the bottom end of each third rotating rod 512 penetrates through the bottom of the ash removing box 1, and the bottom ends of the first rotating rod 52, each second rotating rod 57 and each third rotating rod 512 are connected with a bottom cleaning brush 513.

When the first rotating rod 52, the second rotating rod 57 and the third rotating rod 512 rotate, the corresponding bottom cleaning brushes 513 (fifteen in total) are driven to rotate, so as to clean the ash adhered to the bottom of the incinerator.

To sum up, the first rotating rod 52 (one in all) is sleeved with the first chain wheel 54 (one in the middle layer space) and the third chain wheel 58 (one in the lower layer space); second chain wheels 56 (four in total) and fourth chain wheels 59 (four in total) are sleeved on the second rotating rods 57 (four in total) in the middle layer space; a fifth sprocket 511 (ten in total) is sleeved on the third rotating rod 512 (ten in total in the lower space).

Specifically, the side wall ash removing mechanism 6 includes a second bevel gear 61, the second bevel gear 61 and the first bevel gear 53 are engaged with each other, the first bevel gear 53 is sleeved on a fourth rotating rod 62, the fourth rotating rod 62 penetrates through the left wall of the first partition board 2 on the left side and the ash removing box 1, a sixth chain wheel 63 is sleeved on the fourth rotating rod 62 in the left side space, and the sixth chain wheel 63 is in transmission connection with a third chain 64.

Usually, the upper and lower sides of the sixth chain wheel 63 are connected with a plurality of seventh chain wheels 65 in the third chain 64 in a driving manner, each seventh chain wheel 65 is sleeved on the fifth rotating rod 66, the right end of the fifth rotating rod 66 is rotatably connected in the left first partition board 2, the left end of the fifth rotating rod 66 penetrates through the left wall of the ash removing box 1, and the left ends of the fourth rotating rod 62 and each fifth rotating rod 66 are connected with the side wall cleaning brush 67.

As shown in fig. 5, a sixth sprocket 63 and four seventh sprockets 65 are co-drivingly connected in the third chain 64;

when the first rotating rod 52 rotates, the first bevel gear 53 and the second bevel gear 61 are driven to rotate along with the first rotating rod, the fourth rotating rod 62 and the sixth chain wheel 63 are driven to rotate by the second bevel gear 61, the fourth chain wheel 65 and the corresponding fifth rotating rod 66 are driven to rotate by the third chain 64 under the rotation of the sixth chain wheel 63, and the side wall cleaning brushes 67 (five in total) rotate along with the third chain wheel, so that ash adhered to the inner wall of the incinerator is cleaned.

In addition, the dust collecting mechanism 7 comprises a dust sucking machine 71, two third partition plates 4 are fixedly connected in the right space, the dust sucking machine 71 is installed between the two third partition plates 4, a dust sucking pipe 73 is connected to the lower end of the dust sucking machine 71, the dust sucking pipe 73 penetrates through the bottom of the dust removing box 1, the upper end of the dust sucking machine 71 is connected with a dust collecting box 72 through a pipeline, and the dust collecting box 72 is installed on the third partition plate 4 on the upper layer.

The dust swept by the bottom cleaning brush 513 and the side wall cleaning brush 67 enters the dust collecting box 72 through the dust suction pipe 73 to be stored under the action of the dust suction machine 71, and the removal of the ash is completed.

The utility model discloses a theory of operation and use flow: after the utility model is installed, the rotating motor 51 drives the first rotating rod 52 to drive the first chain wheel 54 to rotate, the first chain wheel 54 drives the first chain 55 to transmit, and the first chain 55 drives the four second chain wheels 56 to rotate;

when the first rotating rod 52 rotates, the third chain wheel 58 is driven to rotate and the corresponding second chain 510 is driven to transmit; when the second chain wheel 56 rotates, the corresponding second rotating rod 57 and the fourth chain wheel 59 are driven to rotate, and the corresponding second chain 510 is driven to transmit; when the second chain 510 performs transmission, the corresponding fifth chain wheel 511 and the third rotating rod 512 are driven to rotate;

when the first rotating rod 52, the second rotating rod 57 and the third rotating rod 512 rotate, corresponding bottom cleaning brushes 513 (fifteen in total) are driven to rotate, so that ash adhered to the bottom of the incinerator is cleaned;

when the first rotating rod 52 rotates, the first bevel gear 53 and the second bevel gear 61 are driven to rotate along with the first rotating rod, the fourth rotating rod 62 and the sixth chain wheel 63 are driven to rotate by the second bevel gear 61, the fourth seventh chain wheel 65 and the corresponding fifth rotating rod 66 are driven to rotate by the third chain 64 under the rotation of the sixth chain wheel 63, and the side wall cleaning brushes 67 (five in total) rotate along with the third chain wheel, so that ash adhered to the inner wall of the incinerator is cleaned;

the dust swept by the bottom cleaning brush 513 and the side wall cleaning brush 67 enters the dust collecting box 72 through the dust suction pipe 73 to be stored under the action of the dust suction machine 71, and the removal of the ash is completed.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides an ash removal device for waste incinerator ash outlet which characterized in that: including deashing case (1), separate for left side space, middle part space and right side space respectively through first baffle (2) in deashing case (1), install bottom deashing mechanism (5) in the space of middle part, install lateral wall deashing mechanism (6) in the space of left side, install collection ash mechanism (7) in the space of right side, universal wheel (8) are installed to the bottom of deashing case (1).

2. The ash removing device for the ash outlet of the garbage incinerator according to claim 1, characterized in that: bottom deashing mechanism (5) include rotating electrical machines (51), separate for upper space, middle level space and lower floor space respectively through two second baffles (3) in the space of middle part, rotating electrical machines (51) are installed in the upper strata on second baffle (3), the output of rotating electrical machines (51) is connected with first rotary rod (52), it is two-layer that first rotary rod (52) run through second baffle (3) with the bottom of deashing case (1).

3. The ash removing device for the ash outlet of the garbage incinerator according to claim 2, characterized in that: in the middle layer space, a first bevel gear (53) is sleeved on the first rotating rod (52), a first chain wheel (54) is sleeved on the first rotating rod (52) below the first bevel gear (53), a first chain wheel (55) is in transmission connection with the first chain wheel (54), and a plurality of second chain wheels (56) are in transmission connection with the front side and the rear side of the first chain wheel (54) in the first chain wheel (55).

4. The ash removing device for the ash outlet of the garbage incinerator according to claim 3, characterized in that: every second sprocket (56) all overlaps and locates on second rotary rod (57), the top of second rotary rod (57) all rotates to be connected in the upper strata in second baffle (3), just the bottom of second rotary rod (57) runs through the lower floor respectively second baffle (3) with the bottom of deashing case (1).

5. The ash removing device for the ash outlet of the garbage incinerator according to claim 4, characterized in that: in the space of lower floor, in the cover is equipped with third sprocket (58) on first rotary rod (52), just in the space of lower floor, in every all the cover is equipped with fourth sprocket (59) on second rotary rod (57), third sprocket (58) and every it is connected with second chain (510) to all transmit on fourth sprocket (59).

6. The ash removing device for the ash outlet of the garbage incinerator according to claim 5, characterized in that: third sprocket (58) and every the left and right sides of fourth sprocket (59), in corresponding all the transmission is connected with fifth sprocket (511) in second chain (510), every on third rotary rod (512) is all located to fifth sprocket (511), every the top of third rotary rod (512) all rotates to be connected in the lower floor in second baffle (3).

7. The ash removing device for the ash outlet of the garbage incinerator according to claim 6, characterized in that: the bottom of every third rotary rod (512) all runs through the bottom of deashing case (1), first rotary rod (52), every second rotary rod (57) and every the bottom of third rotary rod (512) all is connected with bottom brush cleaner (513).

8. The ash removing device for the ash outlet of the garbage incinerator according to claim 3, characterized in that: lateral wall deashing mechanism (6) include second bevel gear (61), second bevel gear (61) with first bevel gear (53) intermeshing, just first bevel gear (53) cover is located on fourth rotary rod (62), fourth rotary rod (62) run through the left first baffle (2) with the left wall of deashing case (1), in the left side space, in fourth rotary rod (62) go up the cover and are equipped with sixth sprocket (63), sixth sprocket (63) transmission connection is in third chain (64).

9. The ash removing device for the ash outlet of the garbage incinerator according to claim 8, characterized in that: the upper and lower both sides of sixth sprocket (63), in the transmission is connected with a plurality of seventh sprocket (65), every in third chain (64) seventh sprocket (65) all overlap locate fifth rotary rod (66), the right-hand member of fifth rotary rod (66) all rotates to be connected in left in first baffle (2), just the left end of fifth rotary rod (66) all runs through the left wall of deashing case (1), fourth rotary rod (62) and every the left end of fifth rotary rod (66) all is connected with lateral wall cleaning brush (67).

10. The ash removing device for the ash outlet of the garbage incinerator according to claim 1, characterized in that: the ash collecting mechanism (7) comprises an ash sucking machine (71), two third partition plates (4) are fixedly connected in the right space, the ash sucking machine (71) is installed in two between the third partition plates (4), the lower end of the ash sucking machine (71) is connected with an ash sucking pipe (73), the ash sucking pipe (73) penetrates through the bottom of the ash removing box (1), the upper end of the ash sucking machine (71) is connected with an ash collecting box (72) through a pipeline, and the ash collecting box (72) is installed on the upper layer on the third partition plates (4).

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