CN214087735U

CN214087735U - Smoke exhaust pipe of activated carbon production equipment

Info

Publication number: CN214087735U
Application number: CN202022665267.6U
Authority: CN
Inventors: 邱迪; 邱建冬
Original assignee: Jiangsu Liangyou Environmental Protection Technology Co Ltd
Current assignee: Jiangsu Liangyou Environmental Protection Technology Co Ltd
Priority date: 2020-11-17
Filing date: 2020-11-17
Publication date: 2021-08-31
Anticipated expiration: 2030-11-17

Abstract

The utility model discloses an active carbon production facility tub of discharging fume, include: the device comprises a reaction furnace, a smoke exhaust assembly and a flue processor; both ends of the smoke exhaust component are respectively communicated to the reaction furnace and the flue processor, and the smoke exhaust component comprises: the first smoke exhaust pipe, the second smoke exhaust pipe, the third smoke exhaust pipe and the fourth smoke exhaust pipe are arranged in the smoke exhaust pipe; one end of the first smoke exhaust pipe is detachably connected to the reaction furnace and communicated to the interior of the reaction furnace; one end of the second smoke exhaust pipe is connected to the periphery of the other end of the first smoke exhaust pipe through threads; the third smoke exhaust pipe is sleeved on the periphery of the second smoke exhaust pipe in a sliding manner; one end of the fourth smoke exhaust pipe is connected to the flue processor; one end of the third smoke exhaust pipe is connected with the other end of the fourth smoke exhaust pipe in a threaded manner; an exhaust fan is arranged at one end of the second smoke exhaust pipe, which is far away from the first smoke exhaust pipe; the exhaust fan is rotatably connected to the inner wall of the second smoke exhaust pipe. The utility model discloses an active carbon production equipment pipe of discharging fume is convenient for clear up the inside of each pipe of discharging fume of subassembly of discharging fume, and has improved smoke exhaust efficiency greatly.

Description

Smoke exhaust pipe of activated carbon production equipment

Technical Field

The utility model relates to an active carbon production facility tub of discharging fume.

Background

Activated carbon is an important material for environmental protection, is widely used as an adsorbent and a decolorizing agent in the fields of food, medical treatment, chemical industry and the like, is mainly used for treating industrial wastewater, municipal sewage and flue gas of thermal power generation, and can generate a large amount of aversion when raw materials for producing the activated carbon are heated in the production process of the activated carbon. The fumes are conveyed through the fume extraction assembly into a flue processor for processing. Traditional smoke exhaust component simple structure uses not nimble enough, and it is inconvenient to dismantle the installation promptly, is not convenient for wash the flue of smoke exhaust component. Meanwhile, the smoke exhaust effect of the traditional smoke exhaust assembly is poor.

SUMMERY OF THE UTILITY MODEL

The utility model provides an active carbon production facility tub of discharging fume adopts following technical scheme:

an activated carbon production facility flue pipe, comprising: the device comprises a reaction furnace, a smoke exhaust assembly and a flue processor; both ends of the smoke exhaust component are respectively communicated to the reaction furnace and the flue processor, and the smoke exhaust component comprises: the first smoke exhaust pipe, the second smoke exhaust pipe, the third smoke exhaust pipe and the fourth smoke exhaust pipe are arranged in the smoke exhaust pipe; one end of the first smoke exhaust pipe is detachably connected to the reaction furnace and communicated to the interior of the reaction furnace; one end of the second smoke exhaust pipe is connected to the periphery of the other end of the first smoke exhaust pipe through threads; the third smoke exhaust pipe is sleeved on the periphery of the second smoke exhaust pipe in a sliding manner; one end of the fourth smoke exhaust pipe is connected to the flue processor; one end of the third smoke exhaust pipe is connected with the other end of the fourth smoke exhaust pipe in a threaded manner; an exhaust fan is arranged at one end of the second smoke exhaust pipe, which is far away from the first smoke exhaust pipe; the exhaust fan is rotatably connected to the inner wall of the second smoke exhaust pipe.

Furthermore, a filter hood for filtering the smoke exhausted from the reaction furnace is arranged in the second smoke exhaust pipe; the filter mantle is detachably arranged in the second smoke exhaust pipe.

Furthermore, a clamping groove for mounting the filter hood is formed on the inner wall of the second smoke exhaust pipe; the other end of the first smoke exhaust pipe presses the filter cover in the clamping groove when one end of the second smoke exhaust pipe is connected to the periphery of the other end of the first smoke exhaust pipe through threads.

Further, the second smoke exhaust pipe, the third smoke exhaust pipe and the fourth smoke exhaust pipe are distributed along the first straight line.

Further, an included angle between the first straight line and the vertical direction is greater than or equal to 45 degrees and less than or equal to 85 degrees.

Further, the angle between the first line and the vertical direction is equal to 60 degrees.

The utility model discloses an useful part lies in that the active carbon production equipment who provides discharges fume the pipe and has set up the first second of discharging fume and discharged fume pipe, the third and discharged fume the pipe and the fourth pipe of discharging fume to through specific connected mode, make the subassembly of discharging fume wholly produce the dress convenient, be convenient for clear up each inside of discharging fume the pipe of discharging fume. Simultaneously, having set up the air discharge fan in the second is discharged fume and has been managed, can improve smoke discharging efficiency greatly, can also prevent the reverse inflow exhaust subassembly of smog in the flue treater through the air discharge fan moreover to avoid the backward flow of smog in the flue treater to advance the reacting furnace.

Drawings

FIG. 1 is a schematic view of a smoke exhaust pipe of the activated carbon production apparatus of the present invention;

the device comprises an active carbon production device smoke exhaust pipe 10, a reaction furnace 11, a flue processor 12, a smoke exhaust component 13, a first smoke exhaust pipe 131, a second smoke exhaust pipe 132, a clamping groove 1321, a third smoke exhaust pipe 133, a fourth smoke exhaust pipe 134, an exhaust fan 14 and a filter hood 15.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

As shown in FIG. 1, for the utility model discloses an active carbon production facility tub 10 of discharging fume, include: a reactor 11, a smoke evacuation assembly 13 and a flue gas handler 12. The two ends of the smoke exhaust assembly 13 are respectively communicated to the reaction furnace 11 and the flue processor 12 to convey the smoke generated in the reaction furnace 11 into the flue processor 12 for processing, so as to avoid air pollution caused by direct emission to the atmosphere.

Further, the smoke evacuation assembly 13 includes: a first smoke exhaust pipe 131, a second smoke exhaust pipe 132, a third smoke exhaust pipe 133 and a fourth smoke exhaust pipe 134. One end of the first exhaust pipe 131 is detachably connected to the reaction furnace 11 and communicates with the inside of the reaction furnace 11. One end of the second smoke discharge pipe 132 is screw-coupled to the outer circumference of the other end of the first smoke discharge pipe 131. The third smoke exhaust pipe 133 is slidably sleeved on the periphery of the second smoke exhaust pipe 132. One end of the fourth smoke exhaust 134 is connected to the flue gas handler 12. One end of the third smoke discharge pipe 133 is screw-coupled to the other end of the fourth smoke discharge pipe 134. Such a connection structure allows the smoke evacuation assembly 13 to be easily installed. When the cleaning is needed, the first smoke exhaust pipe 131, the second smoke exhaust pipe 132, the third smoke exhaust pipe 133 and the fourth smoke exhaust pipe 134 are directly detached and cleaned respectively, and then the first smoke exhaust pipe, the second smoke exhaust pipe, the third smoke exhaust pipe and the fourth smoke exhaust pipe are assembled.

Further, an exhaust fan 14 is disposed at an end of the second smoke exhaust pipe 132 away from the first smoke exhaust pipe 131. The exhaust fan 14 is rotatably connected to the inner wall of the second exhaust pipe 132. When the smoke in the reaction furnace 11 is discharged to the flue processor 12 through the first smoke discharge pipe 131, the second smoke discharge pipe 132, the third smoke discharge pipe 133 and the fourth smoke discharge pipe 134 in sequence, the smoke flows to drive the exhaust fan 14 to rotate, the exhaust fan 14 discharges the smoke behind the exhaust fan 14 to the flue processor 12 when rotating, the flow rate of the smoke in the first smoke discharge pipe 131, the second smoke discharge pipe 132, the third smoke discharge pipe 133 and the fourth smoke discharge pipe 134 is increased, and therefore the smoke discharging efficiency is improved. Exhaust fan 14 increases the flow rate of the fumes while preventing backflow of the fumes within the stack processor 12.

Particularly, the smoke exhaust pipe 10 of the activated carbon production equipment is provided with a first smoke exhaust second smoke exhaust pipe 132, a third smoke exhaust pipe 133 and a fourth smoke exhaust pipe 134, and through a specific connection mode, the whole smoke exhaust assembly 13 is convenient to assemble, and the inside of each smoke exhaust pipe of the smoke exhaust assembly 13 is convenient to clean. Meanwhile, the exhaust fan 14 is arranged in the second smoke exhaust pipe 132, so that the smoke exhaust efficiency can be greatly improved, and the exhaust fan 14 can prevent smoke in the flue processor 12 from reversely flowing into the exhaust assembly, so that the smoke in the flue processor 12 is prevented from reversely flowing into the reaction furnace 11.

In one embodiment, a filter hood 15 is disposed in the second smoke exhaust pipe 132. The filter housing 15 serves to filter the fumes discharged from the reaction furnace 11, thereby further improving the efficiency of the filtering treatment of the fumes. The filter hood 15 is detachably mounted in the second smoke exhaust pipe 132 so as to facilitate the detachment of the filter hood 15 and the replacement and cleaning of the filter hood 15.

Specifically, the inner wall of the second smoke discharge pipe 132 is formed with a card slot 1321. The bayonet 1321 is used to mount the filter housing 15. The other end of the first smoke discharge pipe 131 is screwed to the outer circumference of the other end of the first smoke discharge pipe 131 at one end of the second smoke discharge pipe 132, and the filter housing 15 is press-fitted into the clamping groove 1321. Such a mounting structure is simple and reliable, facilitating the removal of the filter housing 15.

As a specific embodiment, the second smoke exhaust pipe 132, the third smoke exhaust pipe 133 and the fourth smoke exhaust pipe 134 are distributed along the first straight line. Preferably, an angle between the first straight line and the vertical direction is greater than or equal to 45 degrees and less than or equal to 85 degrees.

Specifically, the angle between the first line and the vertical direction is equal to 60 degrees. The fume extractor assembly 13 of this configuration provides a resistive fume extractor that further prevents fumes entering the flue processor 12 through the fume extractor assembly 13 from being processed and then returned to the reactor 11.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It should be understood by those skilled in the art that the above embodiments do not limit the present invention in any way, and all technical solutions obtained by adopting equivalent replacement or equivalent transformation fall within the protection scope of the present invention.

Claims

1. An activated carbon production facility flue pipe, comprising: the device comprises a reaction furnace, a smoke exhaust assembly and a flue processor; two ends of the smoke exhaust assembly are respectively communicated to the reaction furnace and the flue processor, and the smoke exhaust assembly is characterized by comprising: the first smoke exhaust pipe, the second smoke exhaust pipe, the third smoke exhaust pipe and the fourth smoke exhaust pipe are arranged in the smoke exhaust pipe; one end of the first smoke exhaust pipe is detachably connected to the reaction furnace and communicated to the interior of the reaction furnace; one end of the second smoke exhaust pipe is connected to the periphery of the other end of the first smoke exhaust pipe through threads; the third smoke exhaust pipe is sleeved on the periphery of the second smoke exhaust pipe in a sliding manner; one end of the fourth smoke exhaust pipe is connected to the flue processor; one end of the third smoke exhaust pipe is connected with the other end of the fourth smoke exhaust pipe in a threaded manner; an exhaust fan is arranged at one end of the second smoke exhaust pipe, which is far away from the first smoke exhaust pipe; the exhaust fan is rotatably connected to the inner wall of the second smoke exhaust pipe.

2. The activated carbon production facility smoke exhaust pipe according to claim 1,

a filter hood for filtering smoke exhausted from the reaction furnace is arranged in the second smoke exhaust pipe; the filter housing is detachably arranged in the second smoke exhaust pipe.

3. The activated carbon production apparatus smoke exhaust pipe according to claim 2,

a clamping groove for mounting the filter hood is formed in the inner wall of the second smoke exhaust pipe; and when one end of the second smoke exhaust pipe is connected to the periphery of the other end of the first smoke exhaust pipe through threads, the other end of the first smoke exhaust pipe presses the filter cover into the clamping groove.

4. The activated carbon production facility smoke exhaust pipe according to claim 1,

the second smoke exhaust pipe, the third smoke exhaust pipe and the fourth smoke exhaust pipe are distributed along a first straight line.

5. The activated carbon production apparatus smoke exhaust pipe according to claim 4,

an included angle between the first straight line and the vertical direction is greater than or equal to 45 degrees and less than or equal to 85 degrees.

6. The activated carbon production apparatus smoke exhaust pipe according to claim 5,

the included angle between the first straight line and the vertical direction is equal to 60 degrees.