CN218107285U - Glass bottle production exhaust treatment device - Google Patents

Abstract

The utility model belongs to the technical field of exhaust-gas treatment, concretely relates to glass bottle production exhaust treatment device, including the gas receiver, the gas receiver is equipped with the desulfurization case, and the desulfurization incasement is filled with mixed liquid, and the gas receiver has seted up the gas transmission mouth, and the desulfurization case intercommunication has Y shape outlet duct, and the desulfurization case intercommunication has the discharging pipe, and the discharging pipe is equipped with control flap, and the gas receiver is equipped with the tee bend control valve with the desulfurization case, is fixed with the disc in the desulfurization case, and the disc has seted up the air vent, and the desulfurization case is equipped with drive assembly, and drive assembly is connected with the puddler, stirs and passes the disc middle part, and the puddler is fixed with the doctor-bar; the staff is through switching two desulfurization casees in turn, and the inside crystallization of desulfurization case of being convenient for handle closing has reached incessant desulfurization and has handled, when the guarantee staff is healthy, improves the production efficiency of glass bottle.

Description

Glass bottle production exhaust treatment device

Technical Field

The utility model belongs to the technical field of exhaust-gas treatment, concretely relates to glass bottle production exhaust treatment device.

Background

In the production process of the glass bottle, a large amount of sulfur dioxide and carbon dioxide are generated, the sulfur dioxide has certain toxicity and can harm human health, and meanwhile, when the sulfur dioxide is discharged to the atmosphere, acid rain can be formed and falls onto the ground, plants on the ground surface are corroded, and the environment is damaged;

therefore, sulfur dioxide needs to be desulfurized and then discharged into the atmosphere, so that environmental pollution is reduced, the existing desulfurization method is to mix sulfur dioxide into mixed slurry of limestone powder and water, calcium sulfate is generated through oxidation reaction, gypsum is crystallized to form, and desulfurization treatment is realized.

SUMMERY OF THE UTILITY MODEL

The utility model aims at: aims to provide a glass bottle production waste gas treatment device for solving the problems existing in the background technology.

In order to realize the technical purpose, the utility model discloses a technical scheme as follows:

a glass bottle production waste gas treatment device comprises a gas storage tank, wherein two desulfurization tanks are arranged at the upper end of the gas storage tank, mixed liquid of limestone powder and water is filled in the desulfurization tanks, the gas storage tank is provided with a gas transmission port, the upper ends of the two desulfurization tanks are communicated with Y-shaped gas outlet pipes, the lower ends of the two desulfurization tanks are communicated with discharge pipes, control valves are arranged at the lower sides of the two discharge pipes, a three-way control valve is arranged between the gas storage tank and the two desulfurization tanks, desulfurization components and collection components are arranged in the two desulfurization tanks, and a worker can selectively introduce sulfur dioxide into any one of the desulfurization tanks by adjusting the three-way control valve, so that the worker can more safely collect crystals in the used desulfurization tanks;

the desulfurization component comprises a plurality of circular discs, the interiors of two desulfurization boxes are both cylindrical, the circular discs are uniformly fixed on the inner wall of the desulfurization box from top to bottom, vent holes are formed in the edges of the upper ends of the circular discs, the vent holes which are adjacent up and down are arranged oppositely, when sulfur dioxide gas is introduced into the desulfurization box, the interiors of the desulfurization boxes are both cylindrical, and the circular discs are fixed with the inner wall of the desulfurization box, so that the sulfur dioxide can flow upwards from the lowest end of the desulfurization box and sequentially flow through the vent holes to be discharged, and the flow path of the sulfur dioxide is increased due to the adjacent relative arrangement of the vent holes, so that the sulfur dioxide is in a continuous S-shaped path when flowing, the sulfur dioxide is fully contacted with the mixed liquid in the desulfurization box, and the efficiency of desulfurization is improved;

the collecting component comprises two stirring rods and a plurality of scraping pieces, two the desulfurization case upper end is equipped with drive assembly, two jointly the stirring rod respectively with the drive assembly lower extreme is connected, two the stirring rod is located two respectively inside the desulfurization case, and two the stirring rod from top to bottom passes in proper order desulfurization case upper end and a plurality of the disc middle part, it is a plurality of the scraping piece from top to bottom with each the stirring rod is evenly fixed, and is a plurality of the scraping piece and corresponding disc upper end butt, when switching behind the three way control valve, the staff opens the motor, the output of motor drives drive gear rotates, then passes through chain drive drives driven gear rotates, and then makes the stirring rod rotates, lets a plurality of the scraping piece is in inside the desulfurization case rotates, not only will remain in crystal on the disc is scraped down, still stirs another the inside discharging pipe of desulfurization case, makes mixed liquid and sulfur dioxide intensive mixing, and last staff only need open control valve the exit connect get the crystal powder that drops can, convenient and fast still prevents that the staff from contacting and inhaling sulfur dioxide.

The transmission assembly comprises a mounting seat, a motor, a transmission gear, driven gears and a chain, the mounting seat is fixedly connected with the upper end of the desulfurization box, the motor is fixedly connected with the mounting seat, the transmission gear is rotatably connected with an output shaft of the motor, the driven gears are respectively fixedly connected with the upper end of the stirring rod, and the chain is rotatably connected with the transmission gear and the driven gears.

The tee bend control valve includes the regulating box, the regulating box inside set up with the cylinder chamber of gas storage box intercommunication, the inside front side of regulating box open be equipped with the cylinder chamber with the chamber of ventilating of gas storage box intercommunication, the inside rotation of cylinder chamber is equipped with worker shape switch, just a plurality of bleeder vents have been seted up at worker shape switch middle part, worker shape switch right-hand member is connected with and stretches out the rotation handle of regulating box, regulating box and two the intercommunication has the conveyer pipe between the desulfurization case, the conveyer pipe upside is equipped with the air pressure boost valve.

The handle is provided with a jack, the right side of the adjusting box is provided with two slots, the two slots form an included angle of 90 degrees relative to the handle, a bolt is arranged in the jack, and a pull wire is connected between the bolt and the handle.

Two the inside bottom of desulfurization case sets up to circular-arc.

Two ventholes have been seted up to Y shape outlet duct one end, and the feed inlet has been seted up to the other end, just the feed inlet is equipped with sealed lid.

The lower end of the gas storage box is fixedly provided with a plurality of supporting columns, and the lower ends of the supporting columns are fixedly provided with rubber pads.

In this embodiment, the staff passes through the desulfurization case that three-way control valve switching sulfur dioxide let in, and then the staff of being convenient for is under the condition of contactless sulfur dioxide, collect the processing to desulfurization back crystalline solid, the collection subassembly that the motor drove simultaneously, the manpower has been reduced, prevent that the staff from inhaling sulfur dioxide, and through the doctor-bar, with remaining crystallization treatment clean on the disc, add new mixed liquid through the outlet duct at last, two desulfurization case alternate use, reached incessant desulfurization treatment, when the guarantee staff is healthy, the production efficiency of glass bottle is improved.

Drawings

The invention can be further illustrated by means of non-limiting examples given in the figures.

FIG. 1 is a first schematic structural view of a first apparatus for treating waste gas from glass bottle production according to the present invention;

FIG. 2 is a schematic view of a partial cross-sectional structure of a first embodiment of the waste gas treatment apparatus for glass bottle production according to the present invention;

FIG. 3 is a schematic structural diagram II of a first embodiment of the waste gas treatment device for glass bottle production according to the present invention;

FIG. 4 is an enlarged view of the structure at A in FIG. 3;

fig. 5 is a schematic view of a partial sectional structure of a second embodiment of the waste gas treatment apparatus for glass bottle production according to the present invention;

FIG. 6 is an enlarged view of the structure at B in FIG. 5;

FIG. 7 is a schematic structural view of a second embodiment of the waste gas treatment apparatus for glass bottle production according to the present invention;

fig. 8 is an enlarged schematic view of the structure at C in fig. 7.

The main component symbols are as follows:

the device comprises an air storage tank 100, a desulfurization tank 101, an air delivery port 102, a Y-shaped air outlet pipe 103, an air outlet pipe 104, a control valve 105, a disc 106, an air vent hole 107, a scraping blade 108, a mounting seat 109, a motor 110, a transmission gear 111, a stirring rod 112, a driven gear 113, a chain 114, an adjusting tank 200, a cylindrical cavity 201, an air vent cavity 202, an I-shaped switch 203, an air vent 204, a rotating handle 205, a delivery pipe 206, an air pressure increasing valve 207, a jack 300, a slot 301, a plug 302, a pull wire 303, an air outlet hole 304, a feed inlet 305, a sealing cover 306, a supporting column 307 and a rubber pad 308.

Detailed Description

In order to make the present invention better understood by those skilled in the art, the technical solutions of the present invention are further described below with reference to the accompanying drawings and examples.

Example one

As shown in fig. 1-4, a glass bottle production waste gas treatment device comprises a gas storage tank 100, two desulfurization tanks 101 are arranged at the upper end of the gas storage tank 100, a mixed liquid of limestone powder and water is filled in the desulfurization tanks 101, a gas transmission port 102 is formed in the gas storage tank 100, Y-shaped gas outlet pipes 103 are respectively communicated with the upper ends of the two desulfurization tanks 101, discharge pipes 104 are respectively communicated with the lower ends of the two desulfurization tanks 101, control valves 105 are arranged on the lower sides of the two discharge pipes 104, a three-way control valve is jointly arranged between the gas storage tank 100 and the two desulfurization tanks 101, and desulfurization components and collection components are respectively arranged in the two desulfurization tanks 101;

the desulfurization component comprises a plurality of circular discs 106, the interiors of the two desulfurization boxes 101 are both cylindrical, the circular discs 106 are uniformly fixed on the inner walls of the desulfurization boxes 101 from top to bottom, vent holes 107 are formed in the edges of the upper ends of the circular discs 106, and the vent holes 107 which are adjacent up and down are oppositely arranged;

the collecting assembly comprises two stirring rods 112 and a plurality of scraping blades 108, the upper ends of the two desulfurization boxes 101 are jointly provided with a transmission assembly, the two stirring rods 112 are respectively connected with the lower ends of the transmission assembly, the two stirring rods 112 are respectively positioned inside the two desulfurization boxes 101, the two stirring rods 112 sequentially penetrate through the upper ends of the desulfurization boxes 101 and the middle parts of the plurality of discs 106 from top to bottom, the plurality of scraping blades 108 are uniformly fixed with the stirring rods 112 from top to bottom, and the plurality of scraping blades 108 are abutted against the upper ends of the corresponding discs 106;

the transmission assembly comprises a mounting seat 109, a motor 110, a transmission gear 111, a driven gear 113 and a chain 114, the mounting seat 109 is fixedly connected with the upper ends of the two desulfurization boxes 101, the motor 110 is fixedly connected with the mounting seat 109, the transmission gear 111 is rotatably connected with an output shaft of the motor 110, the driven gear 113 is respectively fixedly connected with the upper ends of the two stirring rods 112, and the chain 114 is rotatably connected with the transmission gear 111 and the driven gear 113.

In this embodiment, an operator can selectively introduce sulfur dioxide into any one of the desulfurization boxes 101 by adjusting the three-way control valve, so that the operator can collect crystals more safely inside the used desulfurization box 101, when sulfur dioxide gas is introduced into the desulfurization box 101, because the interior of the desulfurization box 101 is all set to be cylindrical, and the disk 106 is fixed to the inner wall of the desulfurization box 101, the introduced sulfur dioxide can only flow upwards from the lowest end of the desulfurization box 101 and sequentially flows through the vent holes 107, and finally flows out through the Y-shaped gas outlet pipe 103, and because the adjacent vent holes 107 are arranged oppositely, the sulfur dioxide flow path is increased, so that the sulfur dioxide flow is in a continuous S-shaped path, so that the sulfur dioxide is fully contacted with the mixed liquid in the desulfurization box 101, the desulfurization efficiency is improved, after the three-way control valve is switched, the operator opens the motor 110, the output end of the motor 110 drives the transmission gear 111 to rotate, then drives the driven gear 113 to rotate through the transmission of the chain 114, further the stirring rod 112 rotates, the scraping blades 108 rotate inside the desulfurization box 101, not only need to scrape crystals remaining on the disk 106, stir the sulfur dioxide in another desulfurization box 101, and fully contact with the discharge pipe 105, so that the operator can conveniently take out the mixed liquid, and the mixed liquid can be quickly controlled by opening the discharge pipe 104, and the mixed liquid can be conveniently;

when the apparatus for producing glass bottles is in operation: sulfur dioxide discharged in the production process can enter the gas storage box 100 through the gas transmission port 102, and because the disc 106 is fixedly connected with the inner wall of the desulfurization box 101 to form a closed space, the sulfur dioxide can only flow to the vent holes 107, and because the upper and lower adjacent vent holes 107 are arranged oppositely, the sulfur dioxide is enabled to make a continuous S-shaped track in the desulfurization box 101 and is fully mixed with mixed liquid in the desulfurization box 101, so that the desulfurization efficiency is accelerated;

after the device has been in operation for a period of time: the mixed liquid reacts with sulfur dioxide to generate a large amount of gypsum crystals, at the moment, a worker operates the three-way control valve to switch introduced sulfur dioxide to the inside of another desulfurization box 101, the desulfurization boxes 101 are alternately used, desulfurization treatment can be carried out without stopping glass bottle production, the production efficiency of glass bottles is further improved, the production time is saved, then the motor 110 is electrified, the output end of the motor 110 drives the transmission gear 111 to rotate, meanwhile, the two driven gears 113 are driven to rotate by virtue of the chain 114, at the moment, the plurality of scraping blades 108 can rub against the corresponding discs 106, the condensed crystals fall to the bottom of the desulfurization box 101 through the vent holes 107, at the moment, the worker only needs to open the control valve 105 to take the falling crystals at the opening of the discharge pipe 104, when most of the crystals fall, the scraping blades 108 continue to rotate and scrape the residual crystals left at the upper ends of the discs 106, due to the rotation of the scraping blades 108, the scraped crystals generate centrifugal force from inside to outside, the crystals are pushed to the edge of the discs 106, the crystals fall to the lower side of the desulfurization box 101 through the vent holes 107 at the edge, and finally, the crystals are collected and the crystals are only needed to be poured into the desulfurization box 101 to fill the Y-shaped mixed liquid to ensure that the desulfurization box 101 is not to be filled by the worker;

in this embodiment, the staff is through switching two desulfurization casees 101 in turn, and the inside crystallization of desulfurization case 101 that the handling of being convenient for was closed has reached incessant desulfurization and has handled, when the guarantee staff is healthy, improves the production efficiency of glass bottle.

Example two

On the basis of the first embodiment, functional components on the device are further optimized, as shown in fig. 5-8, the three-way control valve comprises an adjusting box 200, a cylindrical cavity 201 communicated with the gas storage box 100 is formed in the adjusting box 200, a ventilation cavity 202 communicated with the cylindrical cavity 201 and the gas storage box 100 is formed in the front side of the inside of the adjusting box 200, an I-shaped switch 203 is rotatably arranged in the cylindrical cavity 201, a plurality of air holes 204 are formed in the middle of the I-shaped switch 203, a rotating handle 205 extending out of the adjusting box 200 is connected to the right end of the I-shaped switch 203, a conveying pipe 206 is communicated between the adjusting box 200 and the two desulfurization boxes 101, and an air pressurization valve 207 is arranged on the upper side of the conveying pipe 206.

The rotating handle 205 is provided with a jack 300, the right side of the adjusting box 200 is provided with two slots 301, the two slots 301 form an included angle of 90 degrees relative to the rotating handle 205, a plug 302 is arranged inside the jack 300, and a pull wire 303 is connected between the plug 302 and the rotating handle 205.

The bottom ends of the two desulfurization boxes 101 are arc-shaped.

One end of each Y-shaped air outlet pipe 103 is provided with an air outlet hole 304, the other end of each Y-shaped air outlet pipe is provided with a feeding hole 305, and the feeding hole 305 is provided with a sealing cover 306.

The lower end of the gas storage tank 100 is fixed with a plurality of support columns 307, and the lower ends of the support columns 307 are fixed with rubber pads 308.

In this embodiment, a worker can control the three-way control valve to switch the desulfurization box 101 to perform desulfurization work, the internal structure of the whole three-way control valve is simple, the delivery path of sulfur dioxide can be switched only by rotating the rotating handle 205 by the worker, the operation of the worker is facilitated, the delivery pipe 206 is arched, and the air pressurization valve 207 is arranged at the highest position of the delivery pipe 206, so that the backflow of mixed liquid in the desulfurization box 101 can be prevented, and the delivery of sulfur dioxide is influenced; the worker is inserted into the jack 300 and the slot 301 through the bolt 302, the rotating handle 205 is prevented from being rotated and then fixed, when the worker is prevented from cleaning crystals, the H-shaped switch 203 rotates to enable sulfur dioxide to enter the desulfurization box 101, and the worker is cleaning the crystals, so that the sulfur dioxide leaks to damage the worker and the environment, the bolt 302 is fixed through the pull wire 303 to prevent the falling off, and the worker can rotate the rotating handle 205 and then fix the sulfur dioxide at any time; when the crystals are received, the arc-shaped inner wall on the lower side of the desulfurization box 101 can slide the falling crystals into the discharge pipe 104 more quickly, so that the crystals are prevented from being accumulated in the desulfurization box 101 to block the discharge pipe 104; the Y-shaped gas outlet pipe 103 separates the gas outlet hole 204 from the feeding hole 205, so that when a worker adds new mixed liquid, the contact with the discharged gas is reduced, and the worker is prevented from sucking sulfur dioxide gas; the fixed support column 307 of gas storage box 100 lower extreme makes the staff can be more convenient collect the processing reaction crystallization at the device lower extreme, and rubber pad 308 has increased the frictional force between device and the ground, makes the staff more stable in clearance whole device.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention shall be covered by the claims of the present invention.

Claims (7)

1. The utility model provides a glass bottle production exhaust treatment device, includes the gas holder, the gas holder upper end is equipped with two desulfurization casees, the inside mixed liquid that is filled with limestone powder and water of desulfurization incasement, the gas transmission mouth has been seted up to the gas holder, two desulfurization case upper end all communicates there is Y shape outlet duct, two desulfurization case lower extreme all communicates there is the discharging pipe, two the discharging pipe downside is equipped with control flap, its characterized in that: a three-way control valve is arranged between the gas storage tank and the two desulfurization tanks, and a desulfurization assembly and a collection assembly are arranged in each of the two desulfurization tanks;

the desulfurization component comprises a plurality of circular discs, the interiors of the two desulfurization boxes are both cylindrical, the circular discs are uniformly fixed on the inner wall of the desulfurization box from top to bottom, vent holes are formed in the edges of the upper ends of the circular discs, and the vent holes which are adjacent up and down are oppositely arranged;

the collection subassembly includes two puddlers and a plurality of doctor-bar, two the desulfurization case upper end is equipped with drive assembly jointly, two the puddler respectively with the drive assembly lower extreme is connected, two the puddler is located two respectively inside the desulfurization case, and two the puddler passes from top to bottom in proper order desulfurization case upper end and a plurality of the disc middle part, it is a plurality of the doctor-bar from top to bottom with each the puddler is evenly fixed, and a plurality of the doctor-bar is with corresponding disc upper end butt.

2. The glass bottle production waste gas treatment device according to claim 1, wherein: the transmission assembly comprises a mounting seat, a motor, a transmission gear, driven gears and a chain, the mounting seat is fixedly connected with the upper end of the desulfurization box, the motor is fixedly connected with the mounting seat, the transmission gear is rotatably connected with an output shaft of the motor, the driven gears are respectively fixedly connected with the upper end of the stirring rod, and the chain is rotatably connected with the transmission gear and the driven gears.

3. The glass bottle production waste gas treatment device according to claim 1, wherein: the tee bend control valve includes the regulating box, the regulating box inside set up with the cylinder chamber of gas storage box intercommunication, the inside front side of regulating box open be equipped with the cylinder chamber with the chamber of ventilating of gas storage box intercommunication, the inside rotation of cylinder chamber is equipped with worker shape switch, just a plurality of bleeder vents have been seted up at worker shape switch middle part, worker shape switch right-hand member is connected with and stretches out the rotation handle of regulating box, regulating box and two the intercommunication has the conveyer pipe between the desulfurization case, the conveyer pipe upside is equipped with the air pressure boost valve.

4. The waste gas treatment device for glass bottle production as claimed in claim 3, wherein: the handle is provided with a jack, the right side of the adjusting box is provided with two slots, the two slots form an included angle of 90 degrees relative to the handle, a bolt is arranged in the jack, and a pull wire is connected between the bolt and the handle.

5. The glass bottle production waste gas treatment device according to claim 1, wherein: two the inside bottom of desulfurization case sets up to circular-arc.

6. The glass bottle production waste gas treatment device according to claim 1, wherein: two ventholes have been seted up to Y shape outlet duct one end, and the feed inlet has been seted up to the other end, just the feed inlet is equipped with sealed lid.

7. The glass bottle production waste gas treatment device according to claim 1, wherein: the lower end of the gas storage box is fixedly provided with a plurality of supporting columns, and the lower ends of the supporting columns are fixedly provided with rubber pads.

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