CN115400547A

CN115400547A - Full-automatic energy-concerving and environment-protective tail gas clean-up processing equipment

Info

Publication number: CN115400547A
Application number: CN202211107973.6A
Authority: CN
Inventors: 曾敏
Original assignee: JIANGXI XIANTING EXQUISITE STORAGE EQUIPMENT CO Ltd
Current assignee: JIANGXI XIANTING EXQUISITE STORAGE EQUIPMENT CO Ltd
Priority date: 2022-09-13
Filing date: 2022-09-13
Publication date: 2022-11-29
Anticipated expiration: 2042-09-13
Also published as: CN115400547B

Abstract

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

Description

Full-automatic energy-concerving and environment-protective tail gas clean-up processing 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 purification treatment equipment.

Background

During the production and manufacturing of metal smelting, a large amount of industrial tail gas can be generated, the tail gas contains a lot of harmful gases, when the tail gas is exhausted into the air, the harmful gases in the tail gas can pollute the surrounding environment and the air, and the society of energy saving and environmental protection is advocated at present, so the industrial tail gas is exhausted after being purified, and the effect of environmental protection can be achieved.

Generally carry tail gas to the active carbon adsorption device through the exhaust fan in for the active carbon in the device will adsorb the harmful gas in the tail gas, but the active carbon remains motionless always, and the harmful gas in the tail gas is difficult to by the complete adsorption, and people need use the agitator to stir the active carbon this moment, so can improve exhaust purification's effect, need people to use the agitator to stir the active carbon, and work load is big, and work efficiency is low.

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

Disclosure of Invention

In order to overcome the defect that the workload is large because people need to stir the activated carbon by using a stirrer, the invention has the technical problems that: the full-automatic energy-saving environment-friendly tail gas purification treatment equipment capable of automatically stirring the activated carbon is provided.

The technical scheme is as follows: the utility model provides a full-automatic energy-concerving and environment-protective tail gas clean-up processing equipment, including the intake pipe, the purifying barrel, outlet duct and interception net, the inside active carbon that is equipped with of purifying barrel, the left sub-unit connection of purifying barrel has the intake pipe that is used for the tail gas to get into, intake pipe and purifying barrel are linked together, the purifying barrel top is connected with the outlet duct, outlet duct and purifying barrel upper portion are linked together, 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 who 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 the purification on the purifying barrel.

In a preferred embodiment of the present invention, the stirring mechanism includes a dual-shaft motor, a first rotating shaft and a stirring frame, the dual-shaft motor is connected to the lower portion of the purification barrel, the first rotating shaft is connected to an output shaft on the upper side of the dual-shaft motor, the first rotating shaft penetrates into the purification barrel, three stirring frames for stirring the activated carbon are connected to the first rotating shaft along the circumferential direction, when the activated carbon in the purification barrel needs to be stirred, the stirring frame is driven to rotate by the first rotating shaft, and at this time, the stirring frames can stir the activated carbon in the purification barrel.

In a preferred embodiment of the invention, the intermittent mechanism comprises an air release member, a first support frame, a gear set, a rotating frame and a toggle column, the first support frame is connected to the upper side of the left inner wall of the purification barrel and is positioned above the intercepting net, the air release member for blocking the lower side of the air outlet pipe is rotatably connected to the first support frame, an air release port is formed in the left part of the air release member, the air release member is rotatably connected with the purification barrel and is contacted with the lower side of the air outlet pipe, the toggle column is connected to the top of the right stirring frame, the rotating frame capable of rotating is rotatably connected to the intercepting net, the upper part of the rotating frame is rotatably connected with the lower right part of the first support frame, the rotating frame is contacted with the toggle column, the gear set for rotating the air release member is connected between the upper part of the rotating frame and the lower part of the air release member, the gear set is composed of two gears, the two gears are respectively connected to the upper part of the rotating frame and the lower part of the air release member, and are mutually meshed.

In a preferred embodiment of the invention, the exhaust gas purification device further comprises a swing mechanism for accelerating the flow speed of the exhaust gas, the swing mechanism comprises a cam disc, a support guide sleeve, a synchronizing rod, a tension spring and a guide plate, the upper part in the purification barrel is connected with the cam disc, the upper part of the stirring frame is connected with the support guide sleeve, the support guide sleeve is connected with the synchronizing rod capable of moving in a sliding manner, the upper side of the synchronizing rod is contacted with the lower side of the cam disc, the tension spring for moving and resetting the synchronizing rod is connected between the lower side of the support guide sleeve and the upper part of the synchronizing rod, the tension spring is sleeved on the synchronizing rod, the synchronizing rod is connected with five guide plates in a rotating and sliding manner, the guide plates are rotatably connected with the stirring frame, when the flow speed of the exhaust gas in the purification barrel needs to be accelerated, the guide plates are rotated up and down through the synchronizing rod, and the tension spring is used for moving and resetting the synchronizing rod.

In a preferred embodiment of the invention, the purification device further comprises a pressurizing mechanism for pressurizing the interior of the purification 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 manner, 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 manner, the supporting block is connected to the right inner wall of the sliding barrel, the piston rod for pressurizing the interior of the purification barrel is connected to the supporting block in a sliding manner, 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 second rotating shaft is rotatably connected to the stirring frame, the rolling cylinder for rolling the activated carbon is connected to the second rotating shaft, and when the activated carbon needs to be rolled, the rolling cylinder is driven to rotate by the second rotating shaft, so that the rolling cylinder rolls the activated carbon.

In a preferred embodiment of the invention, the dust collecting device further comprises a scraping mechanism for scraping dust on the intercepting net, the scraping mechanism comprises a second support frame, a scraping element and a second compression spring, the second support frame is connected to the lower portion of the rotating frame, the scraping element for scraping dust is connected to both the left and right portions of the second support frame in a sliding manner, the scraping element is in contact with the lower side of the intercepting net, the second compression springs for attaching the scraping element and the intercepting net are connected between both the left and right sides of the scraping element and the upper side of the second support frame, the second compression springs are sleeved on the scraping element, when dust on the intercepting net needs to be scraped, the rotating frame rotates to drive the second support frame and the scraping element to rotate, and at the moment, the scraping element can scrape dust on the intercepting net.

In a preferred embodiment of the present invention, the cleaning device further comprises a supporting member, the supporting member is connected to the left side of the cleaning barrel, and the sliding barrel is slidably connected to the supporting member.

Has the advantages that: 1. according to the stirring frame on the first rotating shaft, the stirring frame can stir the active carbon in the purification barrel, so that the contact area between the active carbon and the tail gas can be increased, the reaction speed of the active carbon and the tail gas is increased, and the purification efficiency of the equipment is improved.

2. According to the rolling cylinder on the second rotating shaft, the active carbon can be extruded by the rolling cylinder, so that the active carbon is extruded and dispersed, and the adsorption efficiency of the active carbon can be increased.

3. According to the scraping parts at the left part and the right part of the second support frame, dust on the intercepting net can be scraped by rotating the scraping parts, so that the blocking phenomenon of holes on the intercepting net is avoided, and the normal operation of the intercepting net can be ensured.

Drawings

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

Fig. 2 is a perspective sectional 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 the intermittent mechanism of the present invention.

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

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 point B.

Fig. 8 is a schematic perspective view of the pressing mechanism of the present invention.

Fig. 9 is a sectional view of the pressing mechanism of the present invention.

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

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

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

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

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

Detailed Description

Although the present invention may be described with respect to particular applications or industries, those skilled in the art will recognize the broader applicability of the invention. Those of ordinary skill in the art will recognize other factors such as: terms such as above, below, upward, downward, and the like are used to describe the accompanying drawings and are not meant to limit the scope of the invention, which is defined by the appended claims. Such as: any numerical designation of first or second, and the like, is merely exemplary and is not intended to limit the scope of the invention in any way.

Example 1

The utility model provides a full-automatic energy-concerving and environment-protective tail gas clean-up processing equipment, as shown in fig. 1-fig. 2, including intake pipe 1, purifying barrel 2, outlet duct 3, interception net 4, rabbling mechanism 5 and

intermittent mechanism

6, 2 inside activated carbons that are equipped with of purifying barrel, 2 left lower parts fixedly connected with intake pipe 1 of purifying barrel, intake pipe 1 is linked together with purifying

barrel

2, 2 tops of purifying barrel are connected with outlet duct 3, outlet duct 3 is linked together with 2 upper portions of purifying barrel, outlet duct 3 is used for the exhaust emission in the purifying barrel 2, upper portion is connected with interception net 4 in the purifying barrel 2, be equipped with rabbling 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 includes a dual-shaft motor 51, a first rotating shaft 52 and a stirring frame 53, the dual-shaft motor 51 is connected to the lower portion of the purification barrel 2 through bolts, the first rotating shaft 52 is connected to an output shaft on the upper side of the dual-shaft motor 51 through a coupler, the first rotating shaft 52 penetrates into the purification barrel 2, the dual-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 frame 53 can stir the activated carbon in the purification barrel 2, and the first rotating shaft 52 rotates to drive the stirring frame 53 to rotate.

As shown in fig. 2, fig. 4 and fig. 5, the intermittent mechanism 6 includes an air release member 61, a first support frame 62, a gear set 63, a rotating frame 64 and a toggle column 65, 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 located above the interception net 4, the air release member 61 is rotatably connected to the first support frame 62, the left portion of the air release member 61 is provided with an air release port, the air release member 61 is rotatably connected to the purification barrel 2, the air release member 61 contacts with the lower side of the air outlet pipe 3, the toggle column 65 is connected to the top of the right toggle frame 53, the right toggle frame 53 can rotate the toggle column 65, the rotating frame 64 is connected to the interception net 4, the rotating frame 64 is rotatably connected to the upper portion of the rotating frame 64 and the lower portion of the first support frame 62, the rotating frame 64 contacts with the toggle column 65, the toggle column 65 can rotate the rotating frame 64, the gear set 63 is connected between the upper portion of the rotating frame 64 and the lower portion of the air release member 61, the gear set 63 is composed of two gears, the two gears are respectively connected to the upper portion of the rotating frame 64 and the lower portion of the air release member 61, and the two gears are meshed with each other.

When people need to purify tail gas, the device can be used for operation, firstly, tail gas enters the purifying barrel 2 through the gas inlet pipe 1, then, activated carbon in the purifying barrel 2 purifies the tail gas, then, the purified tail gas passes through the intercepting net 4 and is discharged from the gas outlet pipe 3, meanwhile, the double-shaft motor 51 is also started, so that 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 same time, the stirring frame 53 stirs the activated carbon in the purifying barrel 2, so that the contact area between the activated carbon and the tail gas can be increased, thereby increasing the reaction speed of the activated carbon and the tail gas, at the same time, when the stirring frame 53 rotates, the stirring frame 53 drives the stirring column 65 to rotate, then, the rotating frame 64 and the gear set 63 rotate, thereby, further, the gas discharge piece 61 rotates, when the stirring frame 53 drives the stirring column 65 to rotate three circles, the rotating column 64 and the gear set 63 rotate, thereby, the tail gas discharge port 61 is completely stopped to be purified by the tail gas outlet pipe 3, thus, the tail gas purification effect of the tail gas can be completely purified by the rotating frame 53, and the tail gas outlet pipe 51 can be completely stopped, thus, the tail gas purification effect of the tail gas can be completely, and the tail gas purification effect can be completely stopped, and the tail gas can be completely purified by the tail gas outlet pipe 51, and the tail gas purification effect of the double-purifying barrel 51, and the tail gas purification effect of the tail gas can be completely, and the tail gas outlet pipe 51, it also can stall to release 61 thereupon, repeats above operation, can carry out purification treatment to tail gas to stir frame 53 and can stir the active carbon, so can increase the area of contact of active carbon and tail gas, thereby accelerate the reaction rate of active carbon and tail gas, and then improve the purification efficiency of this equipment.

Example 2

Based on embodiment 1, as shown in fig. 2, 6 and 7, the apparatus further includes a swing mechanism 7, the swing mechanism 7 includes a cam plate 71, a support guide sleeve 72, a synchronization rod 73, a tension spring 74 and a guide plate 75, the cam plate 71 is welded on the upper portion of the purification barrel 2, the support guide sleeves 72 are fixedly connected to the upper portions of the stirring frames 53, the synchronization rods 73 are slidably connected to the support guide sleeves 72, the upper sides of the synchronization rods 73 are in contact with the lower sides of the cam plate 71, the synchronization rod 73 can be moved downward by the rotation of the cam plate 71, the tension spring 74 is connected between the lower side of the support guide sleeve 72 and the upper portion of the synchronization rod 73, the tension spring 74 can move the synchronization rod 73 upward and reset, the tension spring 74 is sleeved on the synchronization rod 73, the synchronization rod 73 is both rotatably and slidably connected to five guide plates 75, the guide plates 75 are rotatably connected to the stirring frames 53, and the synchronization rod 73 can rotate the guide plates 75.

When people need to accelerate the flow speed of the exhaust gas, the swing mechanism 7 can be used for operation, when the stirring rack 53 drives the support guide sleeve 72, the synchronizing rod 73, the tension spring 74 and the guide plate 75 to rotate in the circumferential direction, under the action of the cam disc 71 and the tension spring 74, the synchronizing rod 73 will move up and down, and then the guide plate 75 will continuously rotate up and down, so that the guide plate 75 can accelerate the flow speed of the exhaust gas, and further accelerate the reaction speed between the activated carbon and the exhaust gas, when the stirring rack 53 stops rotating, the support guide sleeve 72, the synchronizing rod 73, the tension spring 74 and the guide plate 75 will also stop rotating in the circumferential direction, and the synchronizing rod 73 will also stop moving, and then the guide plate 75 will also stop rotating up and down, and the above operations are repeated, so that the guide plate 75 can continuously rotate up and down, and the flow speed of the exhaust gas can be accelerated, and thus the reaction speed between the activated carbon and the exhaust gas can be further accelerated.

As shown in fig. 1, 2, 8, 9 and 10, the purification device further comprises a pressurizing mechanism 8, 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 at the lower side of the double-shaft motor 51, the sliding barrel 83 is connected to the left portion of the air inlet pipe 1 in a sliding manner, the push-pull frame 82 is connected to the lower side of the right portion of the sliding barrel 83, the right portion of the push-pull frame 82 is rotatably and slidably connected with the crank 81, the supporting block 86 is connected to the right inner wall of the sliding barrel 83, the piston rod 85 is slidably connected with the sliding barrel 83, the piston rod 85 can pressurize the interior of the purification barrel 2, the first compression spring 87 is connected between the piston rod 85 and the left side of the supporting block 86, the first compression spring 87 is sleeved on the piston rod 85, and the crank 81 is rotated to enable the push-pull frame 82 and the sliding barrel 83 to move left and right.

As shown in fig. 8 and 9, the cleaning machine further comprises a supporting member 84, the supporting member 84 is connected to the left side of the cleaning 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 interior of the purification 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 enable the piston rod 85, the supporting block 86 and the first compression spring 87 to continuously move left and right, in the moving process, the first compression spring 87 can generate adaptive deformation, meanwhile, the supporting piece 84 can improve the stability of the sliding barrel 83, therefore, the interior of the purification barrel 2 can be pressurized, when the output shaft at the lower side of the double-shaft motor 51 stops rotating, the crank 81 can also stop rotating, further enable the push-pull frame 82 and the sliding barrel 83 to stop moving, therefore, the piston rod 85, the supporting block 86 and the first compression spring 87 stop moving, the above operations are repeated, the interior of the purification barrel 2 can be pressurized, and thus the effect of tail gas purification can be better.

As shown in fig. 2 and 11, the activated carbon grinding device further includes a grinding mechanism 9, the grinding mechanism 9 includes a second rotating shaft 91 and a grinding cylinder 92, the stirring frame 53 is rotatably connected with the second rotating shaft 91, the second rotating shaft 91 is fixedly connected with the grinding cylinder 92, and the grinding cylinder 92 can grind the activated carbon.

After long-time use, the activated carbon in the purification barrel 2 may be bonded together, and therefore, the rolling mechanism 9 may be used for operation, when the stirring frame 53 rotates, the stirring frame 53 may also drive the second rotating shaft 91 and the rolling cylinder 92 to rotate, when the rolling cylinder 92 contacts with the activated carbon, the rolling cylinder 92 and the second rotating shaft 91 may rotate, and the rolling cylinder 92 may also roll the activated carbon, thereby crushing the activated carbon, when the stirring frame 53 stops rotating, the second rotating shaft 91 and the rolling cylinder 92 may also stop rotating, and the second rotating shaft 91 and the rolling cylinder 92 may stop rotating, repeating the above operations, and the rolling cylinder 92 may also rotate to extrude the activated carbon, thereby extruding the activated carbon, and thus increasing the adsorption efficiency of the activated carbon.

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

In order to avoid the blocking phenomenon of the holes in the intercepting net 4, the scraping mechanism 10 may be used for operation, when the rotating frame 64 rotates, the rotating frame 64 also drives the second supporting frame 101, the scraping member 102 and the second compression spring 103 to rotate, and at this time, the second compression spring 103 can keep the upper side of the scraping member 102 and the lower side of the intercepting net 4 in a fit state, so that the scraping member 102 rotates to scrape off the dust on the intercepting net 4, thereby avoiding the blocking phenomenon of the holes in the intercepting net 4, when the rotating frame 64 stops rotating, the second supporting frame 101, the scraping member 102 and the second compression spring 103 also stop rotating, and by repeating the above operations, the scraping member 102 rotates to scrape off the dust on the intercepting net 4, thereby avoiding the blocking phenomenon of the holes in the intercepting net 4, and thus ensuring the normal operation of the intercepting net 4.

The above-mentioned embodiments only express the preferred embodiments of the present invention, and the description thereof is specific and detailed, but not to be understood as the limitation of the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. The utility model provides a full-automatic energy-concerving and environment-protective tail gas clean-up processing equipment, including intake pipe (1), purifying barrel (2), outlet duct (3) and intercept net (4), purifying barrel (2) inside is equipped with the active carbon, purifying barrel (2) left side sub-unit connection has intake pipe (1) that is used for the tail gas to get into, intake pipe (1) and purifying barrel (2) are linked together, purifying barrel (2) top is connected with outlet duct (3), outlet duct (3) and purifying barrel (2) upper portion are linked together, upper portion is connected with intercept net (4) in purifying barrel (2), characterized by, still including rabbling mechanism (5) and intermittent type mechanism (6), be equipped with rabbling mechanism (5) that are used for stirring the active carbon on purifying barrel (2), be equipped with intermittent type mechanism (6) that are used for intermittent type to discharge the tail gas after the purification on purifying barrel (2).

2. The full-automatic energy-saving environment-friendly tail gas purification treatment equipment as claimed in claim 1, wherein the stirring mechanism (5) comprises a double-shaft motor (51), a first rotating shaft (52) and a stirring frame (53), the double-shaft motor (51) is connected to the lower portion of the purification barrel (2), the first rotating shaft (52) is connected to an output shaft on the upper side of the double-shaft motor (51), the first rotating shaft (52) penetrates into the purification barrel (2), three stirring frames (53) for stirring the activated carbon are connected to the first rotating shaft (52) along the circumferential direction, when the activated carbon in the purification barrel (2) needs to be stirred, the first rotating shaft (52) drives the stirring frame (53) to rotate, and at the moment, the stirring frame (53) can stir the activated carbon in the purification barrel (2).

3. The full-automatic energy-saving environment-friendly tail gas purification treatment equipment as claimed in claim 2, wherein the intermittent mechanism (6) comprises an air release member (61), a first support frame (62), a gear set (63), a rotating frame (64) and a toggle column (65), 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 intercepting net (4), the air release member (61) for blocking the lower side of the air outlet pipe (3) is rotatably connected to the first support frame (62), an air release port is formed in the left part of the air release member (61), the air release member (61) is rotatably connected with the purification barrel (2), the air release member (61) is in contact with the lower side of the air outlet pipe (3), the top of the right side of the toggle frame (53) is connected with the toggle column (65), the rotating frame (64) capable of rotating is rotatably connected to the upper part of the intercepting net (4), 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 in contact with the toggle column (65), the upper part of the rotating frame (61) and the lower part of the toggle column (61) are connected with two gear sets (63) respectively, the two gears are meshed with each other.

4. A full-automatic energy-saving environment-friendly tail gas purifying treatment device according to claim 3, characterized by further comprising a swing mechanism (7) for accelerating the flow speed of the tail gas, wherein the swing mechanism (7) comprises a cam disc (71), a support 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 portion of the inside of the purifying barrel (2), the support guide sleeve (72) is connected to the upper portion of the stirring frame (53), the movable synchronizing rod (73) is slidably connected to the support guide sleeve (72), the upper side of the synchronizing rod (73) is in contact with the lower side of the cam disc (71), the tension spring (74) for moving and resetting of the synchronizing rod (73) is connected between the lower side of the support guide sleeve (72) and the upper portion of the synchronizing rod (73), the tension spring (74) is sleeved on the synchronizing rod (73), the synchronizing rod (73) is both rotatably and slidably connected to five guide plates (75), and when the flow speed of the tail gas in the purifying barrel (2) needs to be accelerated, the guide plate (75) can rotate up and down by the synchronizing rod (73) to move and reset the tension spring (73).

5. The full-automatic energy-saving and environment-friendly tail gas purification treatment equipment as claimed in claim 4, which is characterized by further comprising a pressurizing mechanism (8) for pressurizing the interior of the purification 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 at the lower side of the double-shaft motor (51), the sliding barrel (83) is connected to the left portion of the air inlet pipe (1) in a sliding manner, the push-pull frame (82) is connected to the lower side of the right portion of the sliding barrel (83), the right portion of the push-pull frame (82) is connected to the crank (81) in a rotating and sliding manner, the supporting block (86) is connected to the right inner wall of the sliding barrel (83), the piston rod (85) for pressurizing the interior of the purification barrel (2) is connected to the supporting block (86) in a sliding manner, the piston rod (85) is in contact with the sliding barrel (83), the first compression spring (87) for moving and resetting of 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).

6. The full-automatic energy-saving environment-friendly tail gas purification treatment equipment as claimed in claim 5, 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 frame (53) is rotatably connected with the second rotating shaft (91), the second rotating shaft (91) is rotatably connected with the rolling cylinder (92) for rolling the activated carbon, and when the activated carbon needs 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.

7. The full-automatic energy-saving environment-friendly tail gas purification treatment equipment as claimed in claim 6, characterized by further comprising a scraping mechanism (10) for scraping dust on the intercepting net (4), wherein the scraping mechanism (10) comprises a second support frame (101), a scraping member (102) and a second compression spring (103), the second support frame (101) is connected to the lower portion of the rotating frame (64), the scraping member (102) for scraping dust is connected to the left side and the right side of the second support frame (101) in a sliding manner, the scraping member (102) is in contact with the lower side of the intercepting net (4), the second compression spring (103) for attaching the scraping member (102) to the intercepting net (4) is connected between the left side and the right side of the scraping member (102) and the upper side of the second support frame (101), the second compression spring (103) is sleeved on the scraping member (102), and when dust on the intercepting net (4) needs to be scraped, the rotating frame (64) can drive the second support frame (101) and the scraping member (102) to rotate, and at the dust on the intercepting net (4) can be scraped.

8. The full-automatic energy-saving environment-friendly tail gas purification treatment equipment as claimed in claim 7, characterized by further comprising a support member (84), wherein the support member (84) is connected to the left side of the purification barrel (2), and the sliding barrel (83) is slidably connected with the support member (84).