CN115400547B - Full-automatic energy-saving environment-friendly tail gas purifying treatment equipment - Google Patents

Abstract

The invention relates to the technical field of tail gas treatment, in particular to full-automatic energy-saving and environment-friendly tail gas purifying treatment equipment. The full-automatic energy-saving environment-friendly tail gas purifying treatment equipment can automatically stir the activated carbon. The utility model provides a full-automatic energy-concerving and environment-protective tail gas purification treatment facility, is including intake pipe, purification barrel, outlet duct and interception net etc. is equipped with the active carbon inside the purification barrel, and the middle part is connected with the intake pipe that is used for tail gas to get into about the purification barrel, and purification barrel top is connected with the outlet duct, and upper portion is connected with the interception net in the purification barrel. According to the stirring frame on the first rotating shaft, the stirring frame can stir the activated carbon in the purifying barrel, so that the contact area of the activated carbon and the tail gas can be increased, the reaction speed of the activated carbon and the tail gas is increased, and the purifying efficiency of the equipment is improved.

Description

Full-automatic energy-saving environment-friendly tail gas purifying treatment equipment

Technical Field

The invention relates to the technical field of tail gas treatment, in particular to full-automatic energy-saving and environment-friendly tail gas purifying treatment equipment.

Background

When the metal smelting is produced, a large amount of industrial tail gas is produced, and a lot of harmful gases are contained in the tail gas, when the tail gas is discharged into the air, the harmful gases in the tail gas pollute the surrounding environment and the air, and the environment-friendly society is advocated, so that the industrial tail gas is discharged after being purified, and the environment-friendly effect can be achieved.

The exhaust fan is generally used for conveying tail gas into the activated carbon adsorption device, so that the activated carbon in the device can adsorb harmful gas in the tail gas, the activated carbon is still, the harmful gas in the tail gas is difficult to be completely adsorbed, at the moment, people need to stir the activated carbon by using the stirrer, the tail gas purifying effect can be improved, people need to stir the activated carbon by using the stirrer, the work load is large, and the work efficiency is low.

Therefore, a full-automatic energy-saving environment-friendly tail gas purifying treatment device capable of automatically stirring the activated carbon is developed.

Disclosure of Invention

In order to overcome the defect that the activated carbon needs to be stirred by a stirrer, so that the workload is large, the invention has the following technical problems: the full-automatic energy-saving environment-friendly tail gas purifying treatment equipment can automatically stir the activated carbon.

The technical scheme is as follows: the utility model provides a full-automatic energy-concerving and environment-protective tail gas purification treatment facility, including intake pipe, purifying barrel, outlet duct and interception net, purifying barrel is inside to be equipped with the active carbon, purifying barrel left side lower part is connected with the intake pipe that is used for tail gas to get into, and intake pipe and purifying barrel are linked together, and purifying barrel top is connected with the outlet duct, and outlet duct and purifying barrel upper portion are linked together, and upper portion is connected with the interception net in the purifying barrel, characterized by still including stirring mechanism and intermittent type mechanism, be equipped with the stirring mechanism that is used for stirring the active carbon on the purifying barrel, be equipped with the intermittent type mechanism that is used for intermittent type nature to discharge the tail gas after purifying on the purifying barrel.

In a preferred embodiment of the invention, the stirring mechanism comprises a double-shaft motor, a first rotating shaft and a stirring frame, the lower part of the purifying barrel is connected with the double-shaft motor, the output shaft on the upper side of the double-shaft motor is connected with the first rotating shaft, the first rotating shaft penetrates into the purifying barrel, the first rotating shaft is connected with three stirring frames for stirring the activated carbon along the circumferential direction, and when the activated carbon in the purifying barrel needs to be stirred, the stirring frames are driven to rotate by the first rotating shaft, and at the moment, the stirring frames stir the activated carbon in the purifying barrel.

In a preferred embodiment of the invention, the intermittent mechanism comprises a gas discharging piece, a first supporting frame, a gear set, a rotating frame and a stirring column, wherein the upper side of the left inner wall of the purifying barrel is connected with the first supporting frame, the first supporting frame is positioned above the intercepting net, the gas discharging piece used for blocking the lower side of the gas outlet pipe is rotationally connected to the first supporting frame, the left part of the gas discharging piece is provided with a gas discharging opening, the gas discharging piece is rotationally connected with the purifying barrel, the gas discharging piece is contacted with the lower side of the gas outlet pipe, the top of the stirring frame on the right side is connected with the stirring column, the intercepting net is rotationally connected with the rotating frame capable of rotating, the upper part of the rotating frame is rotationally connected with the right lower part of the first supporting frame, the rotating frame is contacted with the stirring column, the gear set used for rotating the gas discharging piece is connected between the upper part of the rotating frame and the lower part of the gas discharging piece, the gear set consists of two gears, the two gears are respectively connected to the upper part of the rotating frame and the lower part of the gas discharging piece, and the two gears are meshed with each other.

In a preferred embodiment of the invention, the device further comprises a swinging mechanism for accelerating the flow speed of the tail gas, the swinging mechanism comprises a cam disc, a supporting guide sleeve, a synchronizing rod, tension springs and guide plates, the cam disc is connected to the upper part in the purifying barrel, the supporting guide sleeve is connected to the upper part of the stirring frame, the synchronizing rod capable of moving is connected to the supporting guide sleeve in a sliding mode, the upper side of the synchronizing rod is contacted with the lower side of the cam disc, the tension springs for moving and resetting the synchronizing rod are connected between the lower side of the supporting guide sleeve and the upper part of the synchronizing rod, the tension springs are sleeved on the synchronizing rod, the synchronizing rod is connected with five guide plates in a rotating mode, and when the flow speed of the tail gas in the purifying barrel needs to be accelerated, the guide plates rotate up and down through the synchronizing rod, and the tension springs are used for moving and resetting the synchronizing rod.

In a preferred embodiment of the invention, the purifying device further comprises a pressurizing mechanism for pressurizing the inside of the purifying barrel, the pressurizing mechanism comprises a crank, a push-pull frame, a sliding barrel, a piston rod, a supporting block and a first compression spring, the crank is connected to an output shaft at the lower side of the double-shaft motor, the sliding barrel is connected to the left part of the air inlet pipe in a sliding mode, the push-pull frame is connected to the lower side of the right part of the sliding barrel, the right part of the push-pull frame is connected with the crank in a rotating and sliding mode, the supporting block is connected to the right inner wall of the sliding barrel, the piston rod for pressurizing the inside of the purifying barrel is connected to the supporting block in a sliding mode, the piston rod is in contact with the sliding barrel, the first compression spring for moving and resetting the piston rod is connected between the piston rod and the left side of the supporting block, and the first compression spring is sleeved on the piston rod.

In a preferred embodiment of the invention, the device further comprises a rolling mechanism for rolling the activated carbon, the rolling mechanism comprises a second rotating shaft and a rolling cylinder, the stirring frames are respectively and rotatably connected with the second rotating shaft, the rolling cylinders for rolling the activated carbon are respectively and rotatably connected with the second rotating shaft, and when the activated carbon is required to be rolled, the rolling cylinders are driven to rotate through the second rotating shaft, so that the activated carbon is rolled by the rolling cylinders.

In a preferred embodiment of the invention, the device further comprises a scraping mechanism for scraping dust on the interception net, the scraping mechanism comprises a second support frame, a scraping piece and a second compression spring, the lower part of the rotating frame is connected with the second support frame, the left part and the right part of the second support frame are both connected with the scraping piece for scraping dust in a sliding mode, the scraping piece is contacted with the lower side of the interception net, the second compression spring for enabling the scraping piece to be attached to the interception net is connected between the left side and the right side of the scraping piece and the upper side of the second support frame, the second compression spring is sleeved on the scraping piece, and when the dust on the interception net needs to be scraped, the rotating frame rotates to drive the second support frame and the scraping piece to rotate, and at the moment, the scraping piece can scrape the dust on the interception net.

In a preferred embodiment of the invention, the cleaning device further comprises a supporting piece, the supporting piece is connected to the left side of the cleaning barrel, and the sliding barrel is connected with the supporting piece in a sliding mode.

The beneficial effects are that: 1. according to the stirring frame on the first rotating shaft, the stirring frame can stir the activated carbon in the purifying barrel, so that the contact area of the activated carbon and the tail gas can be increased, the reaction speed of the activated carbon and the tail gas is increased, and the purifying efficiency of the equipment is improved.

2. According to the rolling barrel on the second rotating shaft, disclosed by the invention, the rolling barrel can extrude the activated carbon, so that the activated carbon is extruded and scattered, and the adsorption efficiency of the activated carbon can be increased.

3. According to the scraping pieces at the left and right parts of the second supporting frame, the scraping pieces rotate to scrape dust on the interception net, so that blocking of holes on the interception net is avoided, and normal operation of the interception net can be guaranteed.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a perspective view of the present invention.

Fig. 3 is a schematic perspective view of the stirring mechanism of the present invention.

Fig. 4 is a schematic perspective view of an intermittent mechanism according to the present invention.

Fig. 5 is an enlarged view at a of the present invention.

Fig. 6 is a schematic perspective view of the swing mechanism of the present invention.

Fig. 7 is an enlarged view of the invention at B.

Fig. 8 is a schematic perspective view of a pressurizing mechanism according to the present invention.

Fig. 9 is a cross-sectional view of the pressurizing mechanism of the present invention.

Fig. 10 is an enlarged view of the invention at C.

Fig. 11 is a schematic perspective view of a rolling mechanism according to the present invention.

Fig. 12 is a schematic perspective view of a scraping mechanism according to the present invention.

Fig. 13 is an enlarged view of the invention at D.

In the figure: 1. the device comprises an air inlet pipe, 2, a purifying barrel, 3, an air outlet pipe, 4, an interception net, 5, an agitating mechanism, 51, a double-shaft motor, 52, a first rotating shaft, 53, an agitating frame, 6, an intermittent mechanism, 61, an air discharging piece, 62, a first supporting frame, 63, a gear set, 64, a rotating frame, 65, a poking column, 7, a swinging mechanism, 71, a cam disc, 72, a supporting guide sleeve, 73, a synchronous rod, 74, a tension spring, 75, a guide plate, 8, a pressurizing mechanism, 81, a crank, 82, a push-pull frame, 83, a sliding barrel, 84, a supporting piece, 85, a piston rod, 86, a supporting block, 87, a first compression spring, 9, a rolling mechanism, 91, a second rotating shaft, 92, a rolling barrel, 10, a scraping mechanism, 101, a second supporting frame, 102, a scraping piece, 103 and a second compression spring.

Detailed Description

Although the invention may be described with respect to a particular application or industry, those skilled in the art will recognize the broader applicability of the invention. Those of ordinary skill in the art will recognize such things as: terms such as above, below, upward, downward, etc. are used for describing the drawings, and do not represent limitations upon the scope of the present invention defined by the appended claims. Such as: any numerical designation of the first or second, etc. is merely exemplary and is not intended to limit the scope of the present invention in any way.

Example 1

The utility model provides a full-automatic energy-concerving and environment-protective tail gas purification treatment facility, as shown in fig. 1-fig. 2, including intake pipe 1, purifying barrel 2, outlet duct 3, interception net 4, stirring mechanism 5 and intermittent mechanism 6, purifying barrel 2 inside is equipped with the active carbon, purifying barrel 2 left side lower part fixedly connected with intake pipe 1, intake pipe 1 is linked together with purifying barrel 2, purifying barrel 2 top is connected with outlet duct 3, outlet duct 3 is linked together with purifying barrel 2 upper portion, outlet duct 3 is used for purifying barrel 2 internal tail gas emission, purifying barrel 2 middle-upper portion is connected with interception net 4, be equipped with stirring mechanism 5 on the purifying barrel 2, be equipped with intermittent mechanism 6 on the purifying barrel 2.

As shown in fig. 1, 2 and 3, the stirring mechanism 5 comprises a double-shaft motor 51, a first rotating shaft 52 and a stirring frame 53, the lower part of the purifying barrel 2 is connected with the double-shaft motor 51 through a bolt, the output shaft on the upper side of the double-shaft motor 51 is connected with the first rotating shaft 52 through a coupling, the first rotating shaft 52 penetrates into the purifying barrel 2, the double-shaft motor 51 can enable the first rotating shaft 52 to rotate, three stirring frames 53 are connected to the first rotating shaft 52 along the circumferential direction, the stirring frames 53 can stir active carbon in the purifying barrel 2, and the first rotating shaft 52 rotates to drive the stirring frames 53 to rotate.

As shown in fig. 2, fig. 4 and fig. 5, the intermittent mechanism 6 comprises a deflation member 61, a first support frame 62, a gear set 63, a rotating frame 64 and a stirring column 65, wherein the upper side of the left inner wall of the purifying barrel 2 is connected with the first support frame 62, the first support frame 62 is positioned above the interception net 4, the deflation member 61 is rotatably connected with the first support frame 62, the left part of the deflation member 61 is provided with a deflation port, the deflation member 61 is rotatably connected with the purifying barrel 2, the deflation member 61 is contacted with the lower side of the air outlet pipe 3, the top of the stirring frame 53 on the right side is connected with the stirring column 65, the stirring column 53 on the right side can rotate, the upper part of the rotating frame 64 is rotatably connected with the right lower part of the first support frame 62, the rotating frame 64 is contacted with the stirring column 65, the rotating frame 64 can rotate, the upper part of the rotating frame 64 is connected with the lower part of the deflation member 61, the gear set 63 is formed by two gears, the two gears are respectively connected with the upper part of the rotating frame 64 and the lower part of the deflation member 61, and the two gears are meshed with each other.

When people need to purify the tail gas, the equipment can be used for operation, firstly, the tail gas enters the purifying barrel 2 through the air inlet pipe 1, at the moment, the activated carbon in the purifying barrel 2 can purify the tail gas, then the purified tail gas can pass through the interception net 4 and then is discharged from the air outlet pipe 3, meanwhile, the double-shaft motor 51 is started, the output shaft on the upper side of the double-shaft motor 51 drives the first rotating shaft 52 to rotate, the first rotating shaft 52 rotates to drive the stirring frame 53 to rotate, at the moment, the stirring frame 53 can stir the activated carbon in the purifying barrel 2, so that the contact area of the activated carbon and the tail gas can be increased, the reaction speed of the activated carbon and the tail gas is accelerated, at the same time, when the stirring frame 53 rotates, the stirring frame 53 also drives the stirring column 65 to rotate, and then the rotating frame 64 and the gear set 63 rotate, the air release piece 61 is further rotated, when the stirring frame 53 drives the stirring column 65 to rotate for three circles, the stirring column 65 enables the rotating frame 64 and the gear set 63 to rotate for half circle, and the air release piece 61 rotates for half circle, so that the air release port on the air release piece 61 is communicated with the air outlet pipe 3, and the purified tail gas is discharged through the air outlet pipe 3, therefore, the tail gas can be purified by only one electronic element, and the tail gas can be discharged without being completely purified, the energy-saving and environment-friendly effects can be achieved, after the tail gas is purified, the double-shaft motor 51 is closed, the output shaft on the upper side of the double-shaft motor 51 stops rotating, and the first rotating shaft 52 and the stirring frame 53 stop rotating, so that the stirring column 65, the rotating frame 64 and the gear set 63 stop rotating, then the air release piece 61 also stops rotating, and the above operation is repeated, so that the tail gas can be purified, and the stirring frame 53 can stir the activated carbon, so that the contact area between the activated carbon and the tail gas can be increased, the reaction speed of the activated carbon and the tail gas is accelerated, and the purification efficiency of the equipment is further improved.

Example 2

On the basis of embodiment 1, as shown in fig. 2, 6 and 7, the device further comprises a swinging mechanism 7, the swinging mechanism 7 comprises a cam disc 71, a supporting guide sleeve 72, a synchronizing rod 73, a tension spring 74 and a guide plate 75, the cam disc 71 is welded at the inner upper part of the purifying barrel 2, the supporting guide sleeve 72 is fixedly connected with the upper part of the stirring frame 53, the synchronizing rod 73 is connected to the supporting guide sleeve 72 in a sliding manner, the upper side of the synchronizing rod 73 is contacted with the lower side of the cam disc 71, the cam disc 71 rotates to enable the synchronizing rod 73 to move downwards, a tension spring 74 is connected between the lower side of the supporting guide sleeve 72 and the upper part of the synchronizing rod 73, the tension spring 74 enables the synchronizing rod 73 to move upwards for resetting, the tension spring 74 is sleeved on the synchronizing rod 73, the synchronizing rod 73 rotates and is connected with the five guide plates 75 in a sliding manner, and the guide plate 75 is connected with the stirring frame 53 in a rotating manner.

When the flow speed of the tail gas needs to be accelerated, the swinging mechanism 7 can be used for operation, when the stirring frame 53 drives the supporting guide sleeve 72, the synchronizing rod 73, the tension spring 74 and the guide plate 75 to rotate in the circumferential direction, the synchronizing rod 73 moves up and down under the action of the cam disc 71 and the tension spring 74, and then the guide plate 75 continuously rotates up and down, so that the flow speed of the tail gas can be accelerated by the guide plate 75, the reaction speed between the active carbon and the tail gas can be further accelerated, when the stirring frame 53 stops rotating, the supporting guide sleeve 72, the synchronizing rod 73, the tension spring 74 and the guide plate 75 also stop rotating in the circumferential direction, the synchronizing rod 73 also stops moving, the guide plate 75 also stops rotating up and down, and the guide plate 75 can continuously rotate up and down by repeating the operations, so that the reaction speed between the active carbon and the tail gas can be further accelerated.

As shown in fig. 1, fig. 2, fig. 8, fig. 9 and fig. 10, the device further comprises a pressurizing mechanism 8, the pressurizing mechanism 8 comprises a crank 81, a push-pull frame 82, a sliding barrel 83, a piston rod 85, a supporting block 86 and a first compression spring 87, the crank 81 is connected to an output shaft at the lower side of the double-shaft motor 51, the sliding barrel 83 is connected to the left part of the air inlet pipe 1 in a sliding mode, the push-pull frame 82 is connected to the right lower side of the sliding barrel 83 in a sliding mode, the right part of the push-pull frame 82 is connected with the crank 81 in a sliding mode, the supporting block 86 is connected to the right inner wall of the sliding barrel 83 in a sliding mode, the piston rod 85 is connected to the supporting block 86 in a sliding mode, the piston rod 85 is in contact with the sliding barrel 83, the interior of the purifying barrel 2 can be pressurized by the piston rod 85, the first compression spring 87 is sleeved on the piston rod 85, and the crank 81 rotates to enable the push-pull frame 82 and the sliding barrel 83 to move left and the sliding barrel 83.

As shown in fig. 8 and 9, the purifying device further comprises a supporting member 84, the supporting member 84 is connected to the left side of the purifying barrel 2, the sliding barrel 83 is slidably connected to the supporting member 84, and the supporting member 84 can improve the stability of the sliding barrel 83.

When people need to pressurize the inside of the purifying barrel 2, the pressurizing mechanism 8 can be used for operation, when the output shaft at the lower side of the double-shaft motor 51 drives the crank 81 to rotate, the crank 81 can enable the push-pull frame 82 and the sliding barrel 83 to continuously move left and right, further the piston rod 85, the supporting block 86 and the first compression spring 87 continuously move left and right, in the moving process, the first compression spring 87 can adaptively deform, meanwhile, the supporting piece 84 can improve the stability of the sliding barrel 83, so that the inside of the purifying barrel 2 can be pressurized, when the output shaft at the lower side of the double-shaft motor 51 stops rotating, the crank 81 also stops rotating, further the push-pull frame 82 and the sliding barrel 83 stop moving, so that the piston rod 85, the supporting block 86 and the first compression spring 87 stop moving, the operations are repeated, and the inside of the purifying barrel 2 can be pressurized, and the tail gas purifying effect is better.

As shown in fig. 2 and 11, the device further comprises a rolling mechanism 9, the rolling mechanism 9 comprises a second rotating shaft 91 and a rolling barrel 92, the stirring frames 53 are rotatably connected with the second rotating shaft 91, the second rotating shafts 91 are fixedly connected with the rolling barrel 92, and the rolling barrel 92 can roll the activated carbon.

When the activated carbon in the purifying barrel 2 is used for a long time, the activated carbon may be bonded together, so that the operation can be performed by using the rolling mechanism 9, when the stirring frame 53 rotates, the stirring frame 53 also drives the second rotating shaft 91 and the rolling barrel 92 to rotate, when the rolling barrel 92 contacts with the activated carbon, the rolling barrel 92 and the second rotating shaft 91 rotate, and the rolling barrel 92 also rolls the activated carbon, so that the activated carbon is crushed, when the stirring frame 53 stops rotating, the second rotating shaft 91 and the rolling barrel 92 also stop rotating, and the second rotating shaft 91 and the rolling barrel 92 also stop rotating, the above operation is repeated, the rolling barrel 92 rotates to squeeze the activated carbon, so that the activated carbon is squeezed and dispersed, and the adsorption efficiency of the activated carbon can be increased.

As shown in fig. 1, 12 and 13, the scraper mechanism 10 is further included, the scraper mechanism 10 includes a second support frame 101, a scraping member 102 and a second compression spring 103, the lower portion of the rotating frame 64 is fixedly connected with the second support frame 101, the left and right portions of the second support frame 101 are both slidably connected with the scraping member 102, the scraping member 102 is in contact with the lower side of the interception net 4, the scraping member 102 can scrape dust on the interception net 4, the second compression spring 103 is connected between the left and right sides of the scraping member 102 and the upper side of the second support frame 101, and the second compression spring 103 is sleeved on the scraping member 102.

In order to avoid blocking phenomenon in holes on the interception net 4, the scraping mechanism 10 can be used for operation, when the rotating frame 64 rotates, the rotating frame 64 also drives the second supporting frame 101, the scraping piece 102 and the second compression spring 103 to rotate, at the moment, the second compression spring 103 can enable the upper side of the scraping piece 102 and the lower side of the interception net 4 to keep in a fitting state, so that the scraping piece 102 rotates to scrape dust on the interception net 4, blocking phenomenon in the holes on the interception net 4 is avoided, when the rotating frame 64 stops rotating, the second supporting frame 101, the scraping piece 102 and the second compression spring 103 also stop rotating, the operation is repeated, dust on the interception net 4 can be scraped, and thus, the blocking phenomenon in the holes on the interception net 4 is avoided, and normal operation of the interception net 4 can be ensured.

The foregoing examples have shown only the preferred embodiments of the invention, which are described in more detail and are not to be construed as limiting the scope of the invention. It should be noted that modifications, improvements and substitutions can be made by those skilled in the art without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (5)

1. The full-automatic energy-saving environment-friendly tail gas purifying treatment equipment comprises an air inlet pipe (1), a purifying barrel (2), an air outlet pipe (3) and an interception net (4), wherein active carbon is arranged in the purifying barrel (2), the air inlet pipe (1) for entering tail gas is connected to the left lower part of the purifying barrel (2), the air inlet pipe (1) is communicated with the purifying barrel (2), the air outlet pipe (3) is connected to the top of the purifying barrel (2), the air outlet pipe (3) is communicated with the upper part of the purifying barrel (2), the middle upper part of the purifying barrel (2) is connected with the interception net (4), and the full-automatic energy-saving environment-friendly tail gas purifying treatment equipment is characterized by further comprising an agitating mechanism (5) and an intermittent mechanism (6), the agitating mechanism (5) for agitating the active carbon is arranged on the purifying barrel (2), and the intermittent mechanism (6) for intermittently discharging purified tail gas is arranged on the purifying barrel (2);

the stirring mechanism (5) comprises a double-shaft motor (51), a first rotating shaft (52) and a stirring frame (53), the lower part of the purifying barrel (2) is connected with the double-shaft motor (51), the output shaft on the upper side of the double-shaft motor (51) is connected with the first rotating shaft (52), the first rotating shaft (52) penetrates into the purifying barrel (2), the first rotating shaft (52) is connected with three stirring frames (53) for stirring active carbon along the circumferential direction, and when the active carbon in the purifying barrel (2) needs to be stirred, the stirring frames (53) are driven to rotate through the first rotating shaft (52), and at the moment, the stirring frames (53) stir the active carbon in the purifying barrel (2);

the intermittent mechanism (6) comprises a deflation piece (61), a first support frame (62), a gear set (63), a rotating frame (64) and a stirring column (65), wherein the upper side of the left inner wall of the purification barrel (2) is connected with the first support frame (62), the first support frame (62) is positioned above the interception net (4), the first support frame (62) is rotationally connected with the deflation piece (61) for blocking the lower side of the air outlet pipe (3), the left part of the deflation piece (61) is provided with a deflation port, the deflation piece (61) is rotationally connected with the purification barrel (2), the deflation piece (61) is in contact with the lower side of the air outlet pipe (3), the top of the stirring frame (53) on the right side is connected with the stirring column (65), the upper part of the interception net (4) is rotationally connected with the rotating frame (64) which can rotate, the lower right part of the rotating frame (64) is rotationally connected with the stirring column (65), the upper part of the rotating frame (64) is connected with the lower part of the deflation piece (61) which is used for rotating the deflation piece (61), the two gears (63) are respectively meshed with the two gears (61) on the two lower parts;

the device comprises a purifying barrel (2), and is characterized by further comprising a swinging mechanism (7) for accelerating the flow speed of tail gas, wherein the swinging mechanism (7) comprises a cam disc (71), a supporting guide sleeve (72), a synchronizing rod (73), a tension spring (74) and a guide plate (75), the cam disc (71) is connected to the upper part in the purifying barrel (2), the supporting guide sleeve (72) is connected to the upper part of the stirring frame (53), the synchronizing rod (73) capable of moving is connected to the supporting guide sleeve (72) in a sliding mode, the synchronizing rod (73) is connected to the upper side of the synchronizing rod (73) and the lower side of the cam disc (71), a tension spring (74) for moving and resetting the synchronizing rod (73) is connected between the lower side of the supporting guide sleeve (72) and the upper part of the synchronizing rod (73), the tension spring (74) is sleeved on the synchronizing rod (73), the synchronizing rod (73) is both rotationally and slidingly connected with five guide plates (75), and the guide plates (75) are rotationally connected with the stirring frame (53) to accelerate the flow speed of tail gas in the purifying barrel (2).

2. The full-automatic energy-saving and environment-friendly tail gas purifying treatment equipment is characterized by further comprising a pressurizing mechanism (8) for pressurizing the inside of the purifying barrel (2), wherein the pressurizing mechanism (8) comprises a crank (81), a push-pull frame (82), a sliding barrel (83), a piston rod (85), a supporting block (86) and a first compression spring (87), the crank (81) is connected to an output shaft on the lower side of the double-shaft motor (51), the sliding barrel (83) is connected to the left part of the air inlet pipe (1) in a sliding mode, the push-pull frame (82) is connected to the lower side of the right part of the sliding barrel (83), the right part of the push-pull frame (82) is connected with the crank (81) in a sliding mode, the right inner wall of the sliding barrel (83) is connected with a supporting block (86), the piston rod (85) for pressurizing the inside of the purifying barrel (2) is connected to the supporting block (86) in a sliding mode, the piston rod (85) is in contact with the sliding barrel (83), the first compression spring (87) for resetting the piston rod (85) is connected between the piston rod (85) and the left side of the supporting block (86), and the first compression spring (87) is sleeved on the piston rod (85).

3. The full-automatic energy-saving and environment-friendly tail gas purification treatment equipment is characterized by further comprising a rolling mechanism (9) for rolling the activated carbon, wherein the rolling mechanism (9) comprises a second rotating shaft (91) and a rolling cylinder (92), the stirring frames (53) are rotationally connected with the second rotating shaft (91), the second rotating shaft (91) is rotationally connected with the rolling cylinder (92) for rolling the activated carbon, and when the activated carbon is required to be rolled, the rolling cylinder (92) is driven to rotate through the second rotating shaft (91) so that the rolling cylinder (92) rolls the activated carbon.

4. According to the full-automatic energy-concerving and environment-protective tail gas purification treatment facility of claim 3, characterized by, still including being used for scraping the striking off mechanism (10) of dust on interception net (4), strike off mechanism (10) including second support frame (101), strike off piece (102) and second compression spring (103), rotating frame (64) lower part is connected with second support frame (101), both sides are all sliding type to be connected with the strike off piece (102) that are used for striking off the dust about second support frame (101), strike off piece (102) all contact with interception net (4) downside, strike off piece (102) both sides and second support frame (101) upside between all be connected with second compression spring (103) that are used for making strike off piece (102) and interception net (4) laminating, second compression spring (103) all overlap on strike off piece (102), when the dust on interception net (4) need strike off this moment, rotating frame (64) rotates and can drive second support frame (101) and strike off piece (102) and rotate, strike off piece (102) and carry out dust on interception net (4).

5. The full-automatic energy-saving and environment-friendly tail gas purifying treatment equipment according to claim 4, further comprising a supporting piece (84), wherein the supporting piece (84) is connected to the left side of the purifying barrel (2), and the sliding barrel (83) is connected with the supporting piece (84) in a sliding mode.