CN218774552U - But active carbon exhaust-gas treatment equipment of automated inspection and regulation wind channel and enhancement processing - Google Patents

Abstract

The utility model discloses an active carbon waste gas treatment device capable of automatically detecting and adjusting air channels and strengthening treatment, which comprises a device body, wherein one end of the device body is connected with an odor inlet pipe, an active carbon adsorption channel and a through channel are separated in the device body, the through channel is positioned above the active carbon adsorption channel, one side of the active carbon adsorption channel, which is close to the odor inlet pipe, is provided with a filter screen, four active carbon storage cavities are arranged in the active carbon adsorption channel, and active carbon fillers are filled in the active carbon storage cavities; the flexibility of the equipment greatly reduces the replacement cost of the activated carbon; the method has the advantages of easy operation management, non-selective adsorption, suitability for treating various components, high treatment effect, almost complete removal of volatile organic compounds in the waste gas, and improvement of treatment effect by combining with other treatment modes.

Description

But active carbon exhaust-gas treatment equipment of automated inspection and regulation wind channel and enhancement processing

Technical Field

The invention relates to the technical field of waste gas treatment, in particular to an active carbon waste gas treatment device capable of automatically detecting and adjusting an air channel and strengthening treatment.

Background

The activated carbon adsorption method is a treatment method in which a gas is introduced into an adsorption tower filled with activated carbon to adsorb harmful components in the gas. The adsorbent adopts different active carbon according to different conditions, and in order to improve the treatment effect, the adsorbent is generally treated in series with other processes.

The activated carbon is a very fine carbon particle with a large surface area. The carbon granules are also provided with finer capillaries which have strong adsorption force, and the carbon granules can be fully contacted with gas impurities due to large surface area, and the gas impurities are adsorbed when contacting the capillaries, so that the purification effect is achieved, but the existing activated carbon waste gas treatment equipment has poor flexibility in use, high replacement cost for activated carbon, poor adsorption effect and low treatment efficiency; therefore, the active carbon waste gas treatment equipment capable of automatically detecting and adjusting the air channel and enhancing the treatment is provided.

Disclosure of Invention

The invention aims to provide an activated carbon waste gas treatment device capable of automatically detecting and adjusting an air duct and strengthening treatment, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a but automated inspection and adjust wind channel and strengthen active carbon exhaust-gas treatment equipment who handles, includes the equipment body, the one end of equipment body is connected with the foul smell and advances the pipe, the foul smell advances to install first electrical control valve on the pipe, the foul smell advances to separate in the pipe has last inlet channel and lower inlet channel, the other end of equipment body is connected with the foul smell exit tube, install second electrical control valve on the foul smell exit tube, it has last inlet channel and lower outlet channel to separate in the foul smell exit tube, it has active carbon adsorption passageway and direct passageway to separate in the equipment body, direct passageway is located the top of active carbon adsorption passageway, the one end and the last inlet channel of direct passageway are linked together, and the other end is linked together with last outlet channel, the one end and the lower inlet channel intercommunication of active carbon adsorption passageway, the other end and lower outlet channel intercommunication, the active carbon adsorption passageway is close to one side that the foul smell advances the pipe and is provided with the filter screen, be provided with four active carbon in the active carbon adsorption passageway and deposit the chamber, the upper end that the active carbon adsorption chamber was deposited all linked together and is connected with two active carbon filler throw the pipe, the active carbon filler lower extreme that all runs through the upper end that the active carbon storage equipment body was deposited the filler was put the pipe all filled and every active carbon delivery pipe is connected with the lower extreme.

Preferably, it is single the chamber is deposited to the active carbon all blocks through two stainless wire net of vertical setting and forms, and the side that two adjacent active carbons deposited the chamber passes through side shield welded connection, and the side shield is crisscross setting, and the side that two active carbons that are located the most side deposit the chamber all welds on the inner wall of active carbon adsorption passageway through the side shield.

Preferably, two adjacent active carbon deposit and all form the middle part passageway between the chamber, and the one end that the middle part passageway in the middle of being located is close to the filter screen is the blind end, keeps away from the one end of filter screen and give vent to anger the passageway intercommunication down, and the one end that two middle part passageways that are located the middle part both sides are close to the filter screen is the open end, and the one end of keeping away from the filter screen is the blind end.

Preferably, all form the lateral part passageway between the active carbon who is located both sides deposits the chamber and the inner wall of active carbon adsorption passageway, the one end that the lateral part passageway is close to the filter screen is the blind end, keeps away from the one end of filter screen all with lower air outlet channel intercommunication.

Preferably, the activated carbon adsorption channel and the through channel are completely separated, and the ventilation capacity of the activated carbon adsorption channel is more than three times of that of the through channel.

Compared with the prior art, the invention has the beneficial effects that:

1. compared with the traditional activated carbon equipment, the equipment is provided with two airflow channels, and through detection of the odor concentration detection probe, when the treatment effect of the front-end treatment system on the odor pollutants reaches the standard through detection of the detection probe, signals are automatically sent to the electric valve to automatically switch over the activated carbon adsorption section, and directly enter a subsequent system through an air channel; when the current end processing system can not realize that the detection data of the purification requirement detection probe does not meet the standard, the signal is automatically sent to the electric valve to be switched to pass through the activated carbon adsorption section for adsorption enhancement processing, and the flexible flexibility of the equipment greatly reduces the replacement cost of the activated carbon;

2. the active carbon adsorption method is a physical treatment mode, so that new derivatives cannot be generated, and secondary pollution cannot be caused;

3. the equipment is easy to operate and manage, has no selectivity in adsorption, is suitable for treating various components, has high treatment effect, can almost completely remove volatile organic compounds in the waste gas, and is usually combined with other treatment modes to improve the treatment effect;

4. the regeneration period is short and the occupied area is small.

Drawings

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

FIG. 2 is an internal structural view of the apparatus body of the present invention;

fig. 3 is an interior elevational view of the body of the apparatus of the present invention.

In the figure: the device comprises a device body 1, an odor inlet pipe 2, an upper air inlet channel 21, a lower air inlet channel 22, an odor concentration detection probe 3, a first electric regulating valve 4, an active carbon filler feeding pipe 5, an odor outlet pipe 6, an upper air outlet channel 61, a lower air outlet channel 62, a second electric regulating valve 7, a filter screen 8, an active carbon storage cavity 9, a side baffle 10, active carbon fillers 11, a middle channel 12, a side channel 13, an active carbon adsorption channel 14, a through channel 15 and an active carbon filler discharge pipe 16.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: an active carbon waste gas treatment device capable of automatically detecting and adjusting an air channel and strengthening treatment comprises a device body 1, one end of the device body 1 is connected with an odor inlet pipe 2, the odor inlet pipe 2 is used for allowing odor to enter the device body 1, the odor inlet pipe 2 is provided with a first electric regulating valve 4, the odor inlet pipe 2 is divided into an upper air inlet channel 21 and a lower air inlet channel 22, the first electric regulating valve 4 is used for regulating the air inlet of one of the upper air inlet channel 21 and the lower air inlet channel 22, the other end of the equipment body 1 is connected with an odor outlet pipe 6, the odor outlet pipe 6 is provided with a second electric regulating valve 7, the odor outlet pipe 6 is divided into an upper air outlet channel 61 and a lower air outlet channel 62, the equipment body 1 is divided into an activated carbon adsorption channel 14 and a straight through channel 15, the straight through channel 15 is positioned above the activated carbon adsorption channel 14, the activated carbon adsorption channel 14 and the straight through channel 15 are completely isolated, and the ventilation capacity of the activated carbon adsorption channel 14 is more than three times of the ventilation capacity of the straight through channel 15, one end of the through channel 15 is communicated with the upper air inlet channel 21, the other end of the through channel is communicated with the upper air outlet channel 61, one end of the activated carbon adsorption channel 14 is communicated with the lower air inlet channel 22, the other end of the activated carbon adsorption channel 14 is communicated with the lower air outlet channel 62, one side, close to the odor inlet pipe 2, of the activated carbon adsorption channel 14 is provided with a filter screen 8, four activated carbon storage cavities 9 are formed in the activated carbon adsorption channel 14, the upper ends of the activated carbon storage cavities 9 are communicated and connected with two activated carbon filler feeding pipes 5, the upper ends of the activated carbon filler feeding pipes 5 penetrate through the upper end of the equipment body 1 and extend to the outside, the activated carbon filler feeding pipes 5 are used for feeding activated carbon fillers 11 into the activated carbon storage cavities 9, and when the equipment works, the pipe orifices of the activated carbon filler feeding pipes 5 need to be plugged by using plugging covers; the lower ends of the activated carbon storage cavities 9 are respectively communicated and connected with two activated carbon filler discharge pipes 16, the lower ends of the activated carbon filler discharge pipes 16 extend to the outside through the lower end of the equipment body 1, each activated carbon storage cavity 9 is filled with an activated carbon filler 11, the activated carbon filler discharge pipes 16 are used for discharging the used activated carbon fillers 11 in the activated carbon storage cavities 9, and when the equipment works, the pipe orifices of the activated carbon filler discharge pipes 16 need to be plugged through plugging covers; the single activated carbon storage cavity 9 is formed by blocking two vertically arranged stainless steel wire meshes, the side edges of two adjacent activated carbon storage cavities 9 are welded and connected through side baffles 10, the side baffles 10 are arranged in a staggered mode, and the side edges of the two activated carbon storage cavities 9 positioned at the most lateral edges are welded on the inner wall of the activated carbon adsorption channel 14 through the side baffles 10; a middle channel 12 is formed between every two adjacent activated carbon storage cavities 9, one end, close to the filter screen 8, of the middle channel 12 in the middle is a closed end, one end, far away from the filter screen 8, of the middle channel is communicated with the lower air outlet channel 62, one ends, close to the filter screen 8, of the two middle channels 12 on the two sides of the middle are both open ends, and one ends, far away from the filter screen 8, of the two middle channels are both closed ends; the activated carbon that is located both sides is deposited and is all formed lateral part passageway 13 between the inner wall of chamber 9 and activated carbon adsorption passageway 14, and the one end that lateral part passageway 13 is close to filter screen 8 is the blind end, keeps away from filter screen 8 one end all with lower air outlet channel 62 intercommunication.

Compared with the traditional activated carbon equipment, the equipment is provided with two airflow channels (an activated carbon adsorption channel 14 and a through channel 15), odor enters from an odor inlet pipe 2 and is detected by an odor concentration detection probe 3, when the treatment effect of a front-end treatment system on odor pollutants reaches the standard through detection of the detection probe, a signal is automatically sent to a first electric regulating valve 4 to automatically switch over the activated carbon adsorption channel 14, and the signal directly enters a subsequent system through the through channel 15; when current end processing system can't realize purifying and require that test probe detection data do not reach standard, the signal will be given automatically first electrical control valve 4 and switch over to through activated carbon adsorption passageway 14, adsorb and strengthen the processing, and the process through activated carbon adsorption passageway 14 does: firstly, after being filtered by a filter screen 8, the odor enters two middle channels 12 positioned at two sides of the middle part, then is adsorbed by activated carbon fillers 11 in each activated carbon storage cavity 9, and finally enters a subsequent system through the middle channel 12 positioned at the most middle part and a side channel 13; the flexibility and the flexibility of the equipment greatly reduce the replacement cost of the activated carbon; the active carbon adsorption method is a physical treatment mode, so that new derivatives cannot be generated, and secondary pollution cannot be caused; the equipment is easy to operate and manage, has no selectivity in adsorption, is suitable for treating various components, has high treatment effect, and can almost completely remove volatile organic compounds in the waste gas; often in combination with other treatments to improve treatment efficacy; the equipment is suitable for the subsequent treatment of low-concentration waste gas or other processes, such as: and the chemical washing and the temporary storage warehouse and the incineration plant of the hazardous waste incineration plant are treated in series.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a but automated inspection and regulation wind channel strengthen active carbon exhaust-gas treatment equipment of processing, includes equipment body (1), its characterized in that: the one end of equipment body (1) is connected with the foul smell and advances pipe (2), the foul smell advances to install first electrical control valve (4) on pipe (2), the foul smell advances to separate into last inlet channel (21) and lower inlet channel (22) in pipe (2), the other end of equipment body (1) is connected with foul smell exit tube (6), install second electrical control valve (7) on foul smell exit tube (6), it has last inlet channel (61) and lower inlet channel (62) to separate in foul smell exit tube (6), it has activated carbon adsorption passageway (14) and through passageway (15) to separate in equipment body (1), through passageway (15) is located the top of activated carbon adsorption passageway (14), the one end of through passageway (15) is linked together with last inlet channel (21), the other end is linked together with last inlet channel (61), the one end and lower inlet channel (22) of activated carbon adsorption passageway (14) communicate, the other end and lower inlet channel (62) communicate, activated carbon adsorption passageway (14) are close to one side of advancing pipe (2) and are provided with the activated carbon adsorption passageway (9) of depositing and deposit active carbon adsorption chamber (9) and all be connected with filter screen (9) on the activated carbon adsorption chamber (9), the upper end of active carbon filler input pipe (5) all runs through the upper end of equipment body (1) and extends to the outside, the lower extreme that the active carbon deposited chamber (9) all communicates and is connected with two active carbon filler delivery pipes (16), the lower extreme of active carbon filler delivery pipe (16) all runs through the lower extreme of equipment body (1) and extends to the outside, and every active carbon deposits and all packs in chamber (9) and has active carbon filler (11).

2. The activated carbon exhaust treatment device capable of automatically detecting and adjusting the air duct and enhancing the treatment according to claim 1, wherein: singly two stainless wire net that chamber (9) were all deposited to the active carbon blockked through vertical setting and form, and the side that chamber (9) were deposited to two adjacent active carbons passes through side shield (10) welded connection, and side shield (10) are crisscross to be set up, and the side that two active carbons that are located the most side deposit chamber (9) all welds on the inner wall of active carbon adsorption passageway (14) through side shield (10).

3. The activated carbon exhaust treatment device capable of automatically detecting and adjusting the air duct and enhancing the treatment according to claim 2, wherein: all form middle part passageway (12) between two adjacent active carbon deposit chamber (9), middle part passageway (12) in the middle of being located is the blind end near the one end of filter screen (8), keeps away from the one end of filter screen (8) and gives vent to anger passageway (62) intercommunication down, and the one end that two middle part passageways (12) that are located the middle part both sides are close to filter screen (8) is the open end, and the one end of keeping away from filter screen (8) is the blind end.

4. The activated carbon exhaust treatment device capable of automatically detecting and adjusting the air duct and enhancing the treatment according to claim 1, 2 or 3, wherein: all form lateral part passageway (13) between the active carbon who is located both sides deposits chamber (9) and active carbon adsorption passageway (14) the inner wall, the one end that lateral part passageway (13) are close to filter screen (8) is the blind end, keeps away from filter screen (8) the one end all with lower air outlet channel (62) intercommunication.

5. The activated carbon exhaust treatment device capable of automatically detecting and adjusting the air duct and enhancing the treatment according to claim 1, wherein: the activated carbon adsorption passage (14) and the through passage (15) are completely isolated, and the ventilation capacity of the activated carbon adsorption passage (14) is more than three times of that of the through passage (15).

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