CN116747629A - Energy-saving environment-friendly industrial waste gas treatment device - Google Patents

Abstract

The invention discloses an energy-saving and environmentally friendly industrial waste gas treatment device, which relates to the technical field of waste gas treatment and includes a dust removal mechanism. The dust removal mechanism includes a vertical cylinder. The vertical cylinder is fixedly installed on a bracket. A discharge opening is fixedly installed on the vertical cylinder. A filter plate is fixedly installed on the cylinder, a door strip is slidably installed on the vertical cylinder, a lower fixed sliding rod is fixedly installed on the vertical cylinder, a retaining bar is slidably installed on the lower fixed sliding rod, and a retaining bar is installed between the retaining bar and the lower fixed sliding rod. The sliding rod spring has a supporting plate fixedly installed on the vertical tube, a connecting rod fixedly installed on the door strip, a screw rod rotatingly installed on the supporting plate, the screw rod and the connecting rod form a threaded fit, and the screw rod gear is fixedly installed on the screw rod. The upper connecting plate is fixedly installed on the vertical tube, the supporting plate motor is fixedly installed on the supporting plate, and the motor gear is fixedly installed on the output shaft of the supporting plate motor. The present invention performs preliminary treatment on exhaust gas by using a filter plate, and cleans the particulate matter on the filter plate without replacing the filter plate.

Description

An energy-saving and environmentally friendly industrial waste gas treatment device

Technical field

The invention relates to the technical field of waste gas treatment, and in particular to an energy-saving and environmentally friendly industrial waste gas treatment device.

Background technique

Exhaust gas treatment, also known as exhaust gas purification, refers to the pre-treatment of exhaust gas generated in industrial sites and factory workshops before being discharged to the outside world, so as to meet the national exhaust gas emission standards. General treatment methods include activated carbon adsorption, high-temperature incineration, and catalysis. Combustion method, dissolution absorption method, chemical absorption method, etc. are usually treated by a combination of multiple treatment methods, and the most commonly used method is activated carbon adsorption method; the existing technology has the following shortcomings: in the case of activated carbon adsorption method In terms of activated carbon distribution and installation, there is a lack of convenient installation support. After a long period of use, the activated carbon will lose its effect, thereby reducing the adsorption efficiency of waste gas. In the existing treatment equipment, the activated carbon cannot be completely replaced quickly and effectively. , resulting in low adsorption efficiency and low processing efficiency when the equipment is used.

The invention patent application with publication number CN111482046A discloses an energy-saving and environmentally friendly industrial waste gas treatment device, which includes a base. A bracket is provided on the top of the base, and a heat exchange bin is installed on the top of the bracket. The heat exchange bin is An adsorption chamber is installed at the bottom, and the adsorption chamber is fixedly connected to the bracket. A dissolution pool is installed at the top of the base. A double spiral tube is provided inside the heat exchange chamber. A connecting chamber is provided at the top of the heat exchange chamber. An air inlet pipe joint is fixedly installed on the top of the connecting compartment, and the top of the double spiral pipe is connected with the inside of the connecting compartment. However, this device requires regular replacement of activated carbon and needs to be used under manual supervision.

Contents of the invention

In order to solve the above technical problems, the technical solution adopted by the present invention is: an energy-saving and environmentally friendly industrial waste gas treatment device, which includes a bracket and a dust removal mechanism, and the dust removal mechanism is fixedly installed on the bracket.

The dust removal mechanism includes a vertical cylinder. The vertical cylinder is fixedly installed on the bracket. The vertical cylinder is fixedly equipped with a discharge port. The vertical cylinder is fixedly installed with a filter plate. The vertical cylinder is slidingly installed with a door strip. The vertical cylinder is fixedly installed with a lower fixation. The sliding rod and the lower fixed sliding rod are slidably installed with a retaining bar. A sliding rod spring is installed between the retaining bar and the lower fixed sliding rod. A supporting plate is fixedly installed on the vertical tube. A connecting rod is fixedly installed on the door strip. On the supporting plate A screw rod is rotated and installed, and the screw rod and the connecting rod form a threaded fit. A screw rod gear is fixedly installed on the screw rod. An upper connecting plate is fixedly installed on the vertical tube. The upper connecting plate is slidingly connected to the stop bar. A supporting plate is fixedly installed on the supporting plate. A motor gear is fixedly installed on the output shaft of the motor and the supporting plate motor, and the motor gear and the screw gear form a gear fit.

Further, it also includes a filtering mechanism. The filtering mechanism includes an upper latch. The upper latch is slidably installed on the discharge port. A lower latch is slidably installed on the discharging port. An upper spring is installed on the upper latch. One end of the upper spring is connected to the upper latch. The upper spring The other end is connected to the bracket. A support rod is fixedly installed on the unloading port. A large gear is installed on the support rod for rotation. A small gear is installed on the support rod for rotation. The large gear and the small gear form a gear fit. The upper gear is slidably installed on the support rod. The upper rack and the large gear form a rack-and-pinion fit. A lower rack is slidably mounted on the support rod. The lower rack and the small gear form a rack-and-pinion fit. The upper pin is fixedly mounted with a push rod, which is connected to the upper pin. The gear rack forms a fit, and a connecting rod is fixedly installed on the lower gear rack. The connecting rod is fixedly connected to the lower latch. A lower spring is installed on the lower latch. One end of the lower spring is connected to the lower latch, and the other end of the lower spring is connected to the bracket.

Further, a pressure rod is slidably installed on the vertical cylinder, and the door strip matches the slope of the pressure rod. A pressure rod spring is fixedly installed on the pressure rod. The pressure rod spring is installed between the pressure rod and the vertical cylinder. The bracket is fixedly installed with a pressure rod. The gear lever has a reversing gear rotatably mounted on the gear lever, and a horizontal rack is fixedly mounted on the upper latch. The horizontal rack and the reversing gear form a gear rack, and a vertical rack is fixedly mounted on the pressure rod. The rack and the reversing gear form a rack-and-pinion match.

Further, a dustbin is fixedly installed on the bracket, and a box tube is fixedly installed on the dustbin. The upper end of the box tube is connected to the lower end of the unloading port, the lower end of the box tube is connected to the dustbin, and the lower end of the upper connecting plate is connected to the dustbin.

Further, it also includes an automatic cleaning mechanism. The automatic cleaning mechanism includes a ventilation box. The ventilation box is fixedly installed on the bracket. A box cover is fixedly installed on the ventilation box. A spray pipe is fixedly installed on the lid. The upper end of the spray pipe is connected to the bracket. The vertical tube is connected, the lower end of the jet pipe is connected with the air exchange box, the drying nozzle is fixedly installed on the box cover, the filter frame is fixedly installed on the air exchange box, the water supply pipe is fixedly installed on the air exchange box, and the water supply pipe is fixedly connected to the filter frame. , a connecting rod tube is fixedly installed on the filter frame, the connecting rod tube is fixedly connected to the box cover, a filter cover is fixedly installed on the connecting rod tube, the filter cover is inside the filter frame, an upper cover is fixedly installed on the filter frame, and the upper cover is fixed A screen tube is installed, a connecting tube is fixedly installed on the upper cover, a connector is fixedly installed on the garbage bin, the connecting tube is fixedly connected to the connector, a spiral blade is rotatably installed on the screen tube, and a vertical bevel gear is fixedly installed on the spiral blade. A blade motor is fixedly installed on the ventilation box, and a transverse bevel gear is fixedly installed on the output shaft of the blade motor. The transverse bevel gear and the vertical bevel gear form a gear match.

Further, one door bar is arranged on the upper surface and the lower surface of the filter plate respectively, and both door bars are fixedly connected to the connecting rod.

Further, a medicine box is fixedly installed on the box cover.

Further, a feed cover is fixedly installed on the vertical cylinder.

Compared with the existing technology, the beneficial effects of the present invention are: (1) The dust removal mechanism of the present invention can filter harmful particulate matter in the exhaust gas, clean the upper and lower surfaces of the filter plate, and the cleaned particulate matter enters the dustbin together; (2) The filtering mechanism of the present invention can ensure that industrial gases are not exposed while ensuring that particulate matter enters the trash bin; (3) the automatic cleaning mechanism of the present invention reacts harmful gases to form flocs by mixing waste gas with additives and Collect together in bins.

Description of the drawings

Figure 1 is a schematic diagram of the overall structure of the present invention.

Figure 2 is a schematic diagram of the dust removal mechanism of the present invention.

Figure 3 is an internal schematic diagram of the dust removal mechanism of the present invention.

Figure 4 is a schematic diagram of the filter mechanism of the present invention.

Figure 5 is a schematic diagram of the automatic cleaning mechanism of the present invention.

Figure 6 is an internal schematic diagram of the automatic cleaning mechanism of the present invention.

Figure 7 is a partially enlarged schematic diagram of position A in Figure 4.

Figure 8 is a schematic diagram of the spiral blade of the present invention.

Reference numbers: 1-bracket; 2-vertical tube; 3-discharge opening; 4-filter plate; 5-door bar; 6-lower fixed sliding rod; 7-sliding rod spring; 8-support plate; 9-connection Rod; 10-screw; 11-screw gear; 12-bar; 13-support plate motor; 14-motor gear; 15-upper latch; 16-lower latch; 17-upper spring; 18-support rod; 19 -Big gear; 20-pinion; 21-upper rack; 22-lower rack; 23-push rod; 24-connecting rod; 25-lower spring; 26-pressure rod; 27-pressure rod spring; 28-gear Rod; 29-reversing gear; 30-horizontal rack; 31-vertical rack; 32-dust bin; 33-box tube; 34-upper connecting plate; 35-air exchange box; 36-box cover; 37-spray Air pipe; 38-drying nozzle; 39-filter frame; 40-water supply pipe; 41-connecting rod pipe; 42-filter cover; 43-upper cover; 44-screen pipe; 45-connecting pipe; 46-connector; 47- Spiral blade; 48-blade motor; 49-horizontal bevel gear; 50-vertical bevel gear; 51-medicine box; 52-feed cover.

Implementation

The technical solution of the present invention will be further described below with reference to the accompanying drawings and through specific implementation modes.

Embodiment: An energy-saving and environmentally friendly industrial waste gas treatment device as shown in Figures 1 to 8 includes a bracket 1 and a dust removal mechanism. The dust removal mechanism is fixedly installed on the bracket 1.

The dust removal mechanism includes a vertical cylinder 2, which is fixedly installed on the bracket 1. A discharge port 3 is fixedly installed on the vertical cylinder 2, a filter plate 4 is fixedly installed on the vertical cylinder 2, and a door strip 5 is slidably installed on the vertical cylinder 2. , a lower fixed sliding rod 6 is fixedly installed on the vertical tube 2, a retaining bar 12 is installed slidingly on the lower fixed sliding rod 6, a sliding rod spring 7 is installed between the retaining bar 12 and the lower fixed sliding rod 6, and the vertical cylinder 2 is fixed on A supporting plate 8 is installed, a connecting rod 9 is fixedly installed on the door strip 5, a screw rod 10 is rotatably installed on the supporting plate 8, the screw rod 10 forms a threaded fit with the connecting rod 9, and a screw gear 11 is fixedly installed on the screw rod 10. , the upper connecting plate 34 is fixedly installed on the vertical tube 2, and the upper connecting plate 34 is slidingly connected with the retaining bar 12. The supporting plate motor 13 is fixedly installed on the supporting plate 8, and the motor gear 14 is fixedly installed on the output shaft of the supporting plate motor 13. The motor The gear 14 forms a gear fit with the screw gear 11 . When the industrial waste gas enters the vertical cylinder 2, because the waste gas is mixed with particulate harmful substances, it is first filtered through the filter plate 4. The gas passes through the filter plate 4, and the granular particles will remain on the upper and lower surfaces of the filter plate 4. Start the supporting plate motor 13, the supporting plate motor 13 starts to drive the motor gear 14 to rotate, the motor gear 14 drives the screw gear 11 to rotate, the screw gear 11 drives the screw rod 10 to rotate, the screw 10 drives the connecting rod 9 to move, and the connecting rod 9 drives The door bar 5 moves, and the door bar 5 moves on the surface of the filter plate 4. The door bar 5 pushes the particles down from the filter plate 4 and to the front end of the retaining bar 12. The door bar 5 continues to move and pushes away the retaining bar 12. The retaining bar 12 Sliding on the lower fixed sliding rod 6, the particles fall into the upper catching plate 34 under the action of gravity.

It also includes a filtering mechanism. The filtering mechanism includes an upper latch 15. The upper latch 15 is slidably installed on the unloading port 3. A lower latch 16 is slidably installed on the unloading port 3. An upper spring 17 is installed on the upper latch 15. One end of the upper spring 17 It is connected with the upper latch 15, the other end of the upper spring 17 is connected with the bracket 1, a support rod 18 is fixedly installed on the unloading port 3, a large gear 19 is rotatably installed on the support rod 18, and a small gear 20 is rotatably installed on the support rod 18. , the large gear 19 and the small gear 20 form a gear fit, an upper rack 21 is slidably mounted on the support rod 18, the upper rack 21 and the large gear 19 form a gear rack fit, and a lower rack 22 is slidably mounted on the support rod 18. The lower rack 22 and the pinion 20 form a rack-and-pinion fit. The upper pin 15 is fixedly mounted with a push rod 23, which matches the upper rack 21. The lower rack 22 is fixedly mounted with a connecting rod 24. The connecting rod 24 is fixedly connected to the lower latch 16. A lower spring 25 is installed on the lower latch 16. One end of the lower spring 25 is connected to the lower latch 16, and the other end of the lower spring 25 is connected to the bracket 1. The upper latch 15 moves to the left, closing the upper opening of the unloading port 3 to block the escape of gas. At this time, the particles fall between the upper and lower openings of the unloading port 3. The movement of the upper latch 15 drives the push rod 23 to move. The rod 23 moves to contact with the upper rack 21 and drives the upper rack 21 to slide. The upper rack 21 drives the large gear 19 to rotate. The large gear 19 drives the small gear 20 to rotate. The small gear 20 drives the lower rack 22 to slide. The lower rack 22 The connecting rod 24 is driven to move, and the connecting rod 24 moves to drive the lower latch 16 to move, and the lower end of the unloading port 3 is opened. The particles will flow down along the lower end of the unloading port 3, and the upper latch 15 is moved back through the upper spring 17. The lower latch 16 is moved back to its original position by the lower spring 25 .

A pressure rod 26 is slidably installed on the vertical tube 2, and the door strip 5 cooperates with the slope of the pressure rod 26. A pressure rod spring 27 is fixedly installed on the pressure rod 26, and the pressure rod spring 27 is installed between the pressure rod 26 and the vertical tube 2. , a gear rod 28 is fixedly installed on the bracket 1, a reversing gear 29 is rotatably installed on the gear rod 28, a horizontal rack 30 is fixedly installed on the upper latch 15, and the horizontal rack 30 and the reversing gear 29 form a rack-and-pinion match. A vertical rack 31 is fixedly installed on the pressure rod 26, and the vertical rack 31 and the reversing gear 29 form a rack-and-pinion fit. The door strip 5 moves to contact the pressure rod 26. The movement of the door strip 5 drives the pressure rod 26 to move downward. The pressure rod 26 drives the vertical rack 31 to move downward. The vertical rack 31 drives the reversing gear 29 to rotate and reverse. The gear 29 drives the horizontal rack 30 to move, and the horizontal rack 30 drives the upper latch 15 to move, so that the upper latch 15 enters the inside of the unloading port 3 and closes the top of the unloading port 3 .

A dustbin 32 is fixedly installed on the bracket 1, and a box tube 33 is fixedly installed on the dustbin 32. The upper end of the box tube 33 is connected to the lower end of the unloading port 3, and the lower end of the box tube 33 is connected to the dustbin 32. The upper connecting plate 34 The lower end is connected with the dustbin 32. The door strip 5 removes the particulate matter on the surface of the filter plate 4 and pushes it into the upper connecting plate 34. The particulate matter in the upper connecting plate 34 moves to the dustbin 32. The particulate matter at the lower end of the unloading port 3 enters the dustbin 32 through the box tube 33. Unified collection.

It also includes an automatic cleaning mechanism. The automatic cleaning mechanism includes a ventilation box 35. The ventilation box 35 is fixedly installed on the bracket 1. A box cover 36 is fixedly installed on the ventilation box 35. A spray pipe 37 is fixedly installed on the box cover 36. The upper end of the air pipe 37 is connected with the vertical tube 2, and the lower end of the air jet pipe 37 is connected with the ventilation box 35. The drying nozzle 38 is fixedly installed on the box cover 36, and the filter frame 39 is fixedly installed on the ventilation box 35. A water supply pipe 40 is fixedly installed. The water supply pipe 40 is fixedly connected to the filter frame 39. A connecting rod pipe 41 is fixedly installed on the filter frame 39. The connecting rod pipe 41 is fixedly connected to the box cover 36. A filter cover is fixedly installed on the connecting rod pipe 41. 42. The filter cover 42 is inside the filter frame 39. The upper cover 43 is fixedly installed on the filter frame 39. The screen pipe 44 is fixedly installed on the upper cover 43. The connecting pipe 45 is fixedly installed on the upper cover 43. The dustbin 32 is fixedly installed. There is a connecting head 46, the connecting pipe 45 is fixedly connected to the connecting head 46, a spiral blade 47 is rotatably installed on the screen tube 44, a vertical bevel gear 50 is fixedly installed on the spiral blade 47, and a blade motor 48 is fixedly installed on the ventilation box 35. A transverse bevel gear 49 is fixedly installed on the output shaft of the blade motor 48, and the transverse bevel gear 49 and the vertical bevel gear 50 form a gear fit. The steps of this process are as follows: the semi-purified gas after filtering particulate matter enters the ventilation box 35, and by adding additives, the toxic gas is mixed with the additives to form a flocculent object. Then, under the circulation of the water pipe 40, the mixed liquid will enter the filter In frame 39, through the screen pipe 44, the clean liquid will flow back into the ventilation box 35 through the connecting rod pipe 41, and the floc flow will flow to the lower end of the filter frame 39, rise to the connecting pipe 45 through the spiral blade 47, and then pass through the connecting pipe. The head 46 enters the dustbin 32; the blade motor 48 is started to drive the horizontal bevel gear 49 to rotate, the horizontal bevel gear 49 drives the vertical bevel gear 50 to rotate, the vertical bevel gear 50 drives the spiral blade 47 to rotate, and the spiral blade 47 drives the floc to rise; The purified air is discharged through the drying nozzle 38. Because the gas contains small water droplets, the function of the drying nozzle 38 is to discharge dry purified gas.

One door bar 5 is respectively arranged on the upper surface and the lower surface of the filter plate 4 , and both door bars 5 are fixedly connected to the connecting rod 9 . The two door strips 5 clean both the upper and lower surfaces of the filter plate 4.

A medicine box 51 is fixedly installed on the box cover 36 . The medicine box 51 is used to contain additives.

A feed cover 52 is fixedly installed on the vertical tube 2 . Feeding is carried out through the upper inlet of the feeding cover 52.

Claims (8)

1. An energy-saving and environmentally friendly industrial waste gas treatment device, including a bracket (1) and a dust removal mechanism. The dust removal mechanism is fixedly installed on the bracket (1). It is characterized by: The dust removal mechanism includes a vertical cylinder (2). The vertical cylinder (2) is fixedly installed on the bracket (1). A discharge port (3) is fixedly installed on the vertical cylinder (2). A filter plate is fixedly installed on the vertical cylinder (2). (4), a door bar (5) is slidably installed on the vertical tube (2), a lower fixed sliding rod (6) is fixedly installed on the vertical tube (2), and a retaining bar (6) is slidably installed on the lower fixed sliding rod (6). 12), a sliding rod spring (7) is installed between the retaining bar (12) and the lower fixed sliding rod (6), a supporting plate (8) is fixedly installed on the vertical tube (2), and a supporting plate (8) is fixedly installed on the door strip (5). There is a connecting rod (9), and a screw rod (10) is rotatably installed on the supporting plate (8). The screw rod (10) and the connecting rod (9) form a threaded fit, and a screw gear (10) is fixedly installed on the screw rod (10). 11), the upper connecting plate (34) is fixedly installed on the vertical tube (2), the upper connecting plate (34) is slidingly connected with the retaining bar (12), the supporting plate motor (13) is fixedly installed on the supporting plate (8), and the supporting plate A motor gear (14) is fixedly installed on the output shaft of the motor (13), and the motor gear (14) and the screw gear (11) form a gear fit. 2. An energy-saving and environmentally friendly industrial waste gas treatment device according to claim 1, characterized in that it also includes a filtering mechanism, the filtering mechanism includes an upper latch (15), and the upper latch (15) is slidably installed in the discharge port (3). ), a lower latch (16) is slidably installed on the unloading port (3), and an upper spring (17) is installed on the upper latch (15). One end of the upper spring (17) is connected to the upper latch (15), and the upper spring The other end of (17) is connected to the bracket (1). A support rod (18) is fixedly installed on the unloading port (3). A large gear (19) is rotatably installed on the support rod (18). On the support rod (18) A small gear (20) is rotatably installed, and the large gear (19) and the small gear (20) form a gear fit. An upper rack (21) is slidably installed on the support rod (18). The upper rack (21) and the large gear (20) 19) A rack-and-pinion match is formed. A lower rack (22) is slidably installed on the support rod (18). The lower rack (22) and the pinion (20) form a rack-and-pinion match. The upper pin (15) is fixedly installed. There is a push rod (23), and the push rod (23) cooperates with the upper rack (21). A connecting rod (24) is fixedly installed on the lower rack (22), and the connecting rod (24) is fixed with the lower latch (16). connection, a lower spring (25) is installed on the lower latch (16), one end of the lower spring (25) is connected to the lower latch (16), and the other end of the lower spring (25) is connected to the bracket (1). 3. An energy-saving and environmentally friendly industrial waste gas treatment device according to claim 2, characterized in that: a pressure rod (26), a door strip (5) and a pressure rod (26) are slidably installed on the vertical tube (2). The inclined surface of the pressure rod (26) is fixedly installed with a pressure rod spring (27). The pressure rod spring (27) is installed between the pressure rod (26) and the vertical tube (2). The pressure rod spring (27) is fixedly installed on the bracket (1). There is a gear rod (28), a reversing gear (29) is rotatably installed on the gear rod (28), a horizontal rack (30) is fixedly installed on the upper latch (15), and the horizontal rack (30) and the reversing gear (29) are fixedly installed on the upper latch (15). 29) forms a gear rack and pinion fit. A vertical rack (31) is fixedly installed on the pressure rod (26). The vertical rack (31) and the reversing gear (29) form a gear and rack fit. 4. An energy-saving and environmentally friendly industrial waste gas treatment device according to claim 3, characterized in that: a dustbin (32) is fixedly installed on the bracket (1), and a box tube (32) is fixedly installed on the dustbin (32). 33), the upper end of the box tube (33) is connected to the lower end of the discharge port (3), the lower end of the box tube (33) is connected to the dustbin (32), and the lower end of the upper connecting plate (34) is connected to the dustbin (32) . 5. An energy-saving and environmentally friendly industrial waste gas treatment device according to claim 4, characterized in that: it also includes an automatic cleaning mechanism, the automatic cleaning mechanism includes a ventilation box (35), and the ventilation box (35) is fixedly installed on the On the bracket (1), a box cover (36) is fixedly installed on the ventilation box (35), and a spray pipe (37) is fixedly installed on the box cover (36). The upper end of the spray pipe (37) is connected to the vertical tube (2) The lower end of the jet pipe (37) is connected with the ventilation box (35), the drying nozzle (38) is fixedly installed on the box cover (36), and the filter frame (39) is fixedly installed on the ventilation box (35). A water supply pipe (40) is fixedly installed on the air box (35). The water supply pipe (40) is fixedly connected to the filter frame (39). A connecting rod pipe (41) is fixedly installed on the filter frame (39). The connecting rod pipe (41) is fixedly installed on the air box (35). ) is fixedly connected to the box cover (36), a filter cover (42) is fixedly installed on the connecting rod tube (41), the filter cover (42) is inside the filter frame (39), and an upper cover is fixedly installed on the filter frame (39) (43), a screen pipe (44) is fixedly installed on the upper cover (43), a connecting pipe (45) is fixedly installed on the upper cover (43), a connector (46) is fixedly installed on the garbage bin (32), and the connecting pipe (46) is fixedly installed on the upper cover (43). The pipe (45) is fixedly connected to the connector (46), a spiral blade (47) is rotatably installed on the screen pipe (44), a vertical bevel gear (50) is fixedly installed on the spiral blade (47), and the ventilation box (35) A blade motor (48) is fixedly installed on the blade motor (48), and a transverse bevel gear (49) is fixedly installed on the output shaft of the blade motor (48). The transverse bevel gear (49) and the vertical bevel gear (50) form a gear fit. 6. An energy-saving and environmentally friendly industrial waste gas treatment device according to claim 5, characterized in that: one door strip (5) and two door strips are respectively arranged on the upper surface and lower surface of the filter plate (4). (5) are all fixedly connected to the connecting rod (9). 7. An energy-saving and environmentally friendly industrial waste gas treatment device according to claim 6, characterized in that: a medicine box (51) is fixedly installed on the box cover (36), and the medicine box (51) is used to contain additives. 8. An energy-saving and environmentally friendly industrial waste gas treatment device according to claim 7, characterized in that: a feed cover (52) is fixedly installed on the vertical tube (2).