CN215939550U - Waste gas treatment equipment for waste silk and waste cloth PA6 plastic recovery processing - Google Patents

Abstract

The utility model discloses waste gas treatment equipment in waste silk and waste cloth PA6 plastic recycling and processing, and relates to the field of waste gas treatment equipment. A waste gas treatment device in the plastic recovery processing of waste silk and waste cloth PA6 comprises a furnace body and a base, a furnace body is arranged in the center of the upper surface of the base, an end cover is arranged at the top of the furnace body, an air inlet pipe is inserted below one side of the furnace body, an exhaust pipe is inserted above the other side of the furnace body, the tail end of the exhaust pipe is provided with a filter, an upper water nozzle is inserted above the front surface of the furnace body, a lower water nozzle is inserted below the furnace body, a water pipe group is arranged in front of the base, short water pipes are arranged above two sides of the water pipe group, long water pipes are arranged above the water pipe group, a filter layer is arranged on the upper part in the furnace body, an active carbon layer is arranged on the lower part, a carrying platform is arranged in the center of the base, the motor is placed at the top of the carrying platform, and the stirring mechanism is installed at the tail end of the motor, so that the technical problems that the equipment structure is simple, the waste gas treatment is incomplete, and solid particle impurities cannot be treated are solved.

Description

Waste gas treatment equipment for waste silk and waste cloth PA6 plastic recovery processing

Technical Field

The utility model relates to the field of waste gas treatment equipment, in particular to waste gas treatment equipment in waste silk and waste cloth PA6 plastic recycling processing.

Background

PA6 is a milky white or yellowish transparent to opaque cutin-shaped crystalline polymer, can be freely colored, has good toughness, wear resistance and self-lubricating property, small rigidity, low temperature resistance, bacteria resistance, slow combustion, slow extinguishing after being away from fire, has the phenomena of dripping and foaming, and has the molding processability: can be used for injection molding, blow molding, pouring molding, spraying, powder molding, machining, welding and bonding. PA6 is the most hydroscopic PA, has poor dimensional stability, and affects electrical properties (breakdown voltage). The maximum use temperature of PA6 can reach 180 deg.C, the temperature can be reduced to 160 deg.C after adding impact modifier, and the temperature can be increased to 199 deg.C by reinforcing with 15% -50% glass fiber, and the heat distortion temperature can be increased by inorganic filled PA. The injection molding machine generates organic waste gas in the injection molding heating process, and the main components of the organic waste gas are dust particles, non-methane total hydrocarbons and other harmful substances. The waste gas has pungent odor and slight toxicity, and has great harm to human health.

The utility model provides a multifunctional double-effect energy-saving device for waste silk recovery and waste gas recycling of nylon yarns, which comprises a waste silk recovery machine and a waste gas treatment box, wherein the right side of the top of the waste silk recovery machine is communicated with an air inducing mechanism, the top of the air inducing mechanism is communicated with an air inducing pipe through a reducing pipe, one end, far away from the air inducing mechanism, of the air inducing pipe penetrates through the waste gas treatment box and extends into the waste gas treatment box, and one end, located inside the waste gas treatment box, of the air inducing pipe is communicated with a coil pipe. This double-effect economizer is recycled with waste gas to waste silk recovery of multi-functional polyamide fibre silk, handle waste gas through exhaust-gas treatment case, reduce the pollution of waste gas direct discharge to the environment, heat conversion to the heat of circulating water in the waste gas through the heat transfer simultaneously, carry out recycle to the heat in the waste gas, resources and energy have been practiced thrift, the pollution of production to the environment has also effectively been reduced, therefore, the clothes hanger is strong in practicability, convenient to popularize and use, but equipment structure is comparatively simple, can't guarantee to carry out complete processing to waste gas, do not possess the ability of handling solid particle impurity simultaneously.

Therefore, it is necessary to provide a waste gas treatment device for waste filament and waste cloth PA6 plastic recycling processing to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides waste gas treatment equipment in waste silk and waste cloth PA6 plastic recycling processing, and solves the technical problems that the equipment is simple in structure, the waste gas is not completely treated, and solid particle impurities cannot be treated.

In order to solve the technical problems, the utility model provides waste gas treatment equipment in waste silk waste cloth PA plastic recovery processing, which comprises a furnace body and a base, wherein the furnace body is arranged in the center of the upper surface of the base, stand columns are arranged on the periphery of the upper surface of the base, the top of each stand column supports the furnace body, an end cover is arranged on the top of the furnace body through a mounting screw, an air inlet pipe is inserted below one side of the furnace body, an exhaust pipe is inserted above the other side of the furnace body, a filter is arranged at the tail end of the exhaust pipe through a mounting screw, an upper water nozzle is inserted above the front of the furnace body, a lower water nozzle is inserted below the front of the furnace body, a water pipe group is placed in front of the base, a flow meter is arranged above the water pipe group, short water pipes are arranged above two sides of the water pipe group, a long water pipe is arranged above the center of the water pipe group, a filter layer is arranged above the interior of the furnace body, the activated carbon layer is installed below the inner portion of the furnace body, the frame is connected below the base, the carrying platform is placed in the center of the base, the motor is placed at the top of the carrying platform, and the stirring mechanism is installed at the tail end of the motor, so that the waste gas is fully treated, and the capability of treating solid particle impurities is improved.

Preferably, the sealing washer is inlayed to the end cover inboard for guarantee the inside waste gas complete processing of equipment, the terminal welding of blast pipe has the exhaust flange for the gas after the exhaust treatment, the terminal welding of intake pipe has the air inlet flange, is used for leading-in the gas of waiting to handle.

Preferably, the water pipe set comprises a water inlet pipe, and the water inlet pipe is connected to the bottom tail end of the flowmeter and used for controlling the amount of the introduced liquid.

Preferably, the tail end of the short water pipe is connected with a lower hose through a quick connector, and the lower hose is connected to the outer side of the lower water nozzle and used for guiding cooling water.

Preferably, the tail end of the long water pipe is connected with an upper hose through a quick connector, and the upper hose is connected to the outer side of the upper water nozzle and used for guiding out cooling water.

Preferably, the periphery of the filter layer is provided with a through ventilation groove for adsorbing and settling solid particles.

Preferably, vertical plates are welded on two sides of the base, and an electrifying port is machined below each vertical plate and used for supporting the whole equipment.

Preferably, the motor end is connected with a transmission shaft through a coupler, and the transmission shaft end is connected with a stirring mechanism for enabling waste gas to be fully absorbed and reacted.

Preferably, a filter frame is processed in the center of the filter, and a movable blocking sheet is inlaid in the center of the filter frame and used for playing a role in dynamic sealing.

Compared with the prior art, the waste gas treatment equipment for waste silk and waste cloth PA6 plastic recycling has the following beneficial effects:

the utility model provides waste gas treatment equipment in waste silk waste cloth PA6 plastic recovery processing, which is characterized in that an end cover, a stirring mechanism, a filter and other devices are arranged on the waste gas treatment equipment, the waste gas to be treated is led in through an air inlet pipe during working, the waste gas is absorbed and reacted by treatment liquid stored below a furnace body, so that the harm of organic matter gas in the waste gas to the environment is reduced, meanwhile, the stirring mechanism driven by a motor is rotationally stirred below the furnace body, the full mixing of the waste gas and the liquid is increased, the thoroughness and the reaction efficiency of waste gas treatment are further improved, the treated waste gas enters the filter through an exhaust pipe, a movable baffle in the filter is made of an elastic material and can be opened after the pressure in the furnace body reaches a rated value, the pressure in the furnace body is ensured not to be too high, and the treatment degree of the waste gas is further ensured, the problem of exhaust-gas treatment degree not enough is solved.

The utility model provides waste gas treatment equipment in waste silk waste cloth PA6 plastic recovery processing, which is characterized in that a water pipe set, an activated carbon layer, a filter layer and other devices are arranged on the waste gas treatment equipment, a double-layer furnace body structure is utilized, cooling water is introduced into the double-layer furnace body structure, cooling of high-temperature gas is accelerated, solid impurities fused into liquid are adsorbed through the activated carbon layer with adsorbability, the performance of treating the liquid is ensured, waste gas leaving the liquid upwards reaches the filter layer, the solid impurities are further blocked, and the problem that solid particles in the waste gas are improperly treated by traditional equipment is solved.

Drawings

FIG. 1 is a schematic structural diagram of a preferred embodiment of an exhaust gas treatment device in the plastic recycling process of waste silk and waste cloth PA6 provided by the utility model;

FIG. 2 is a schematic view of the structure of the water tube assembly of the present invention;

FIG. 3 is a cross-sectional view of the interior of the case of the present invention;

FIG. 4 is a schematic view of a filter according to the present invention;

reference numbers in the figures: 1. an end cap; 101. a seal ring; 2. an exhaust pipe; 201. an exhaust flange; 3. a filter; 301. a filter frame; 302. a movable baffle plate; 4. a furnace body; 5. a column; 6. a water pipe group; 601. a water inlet pipe; 7. an air inlet pipe; 701. an air inlet flange; 8. a water feeding nozzle; 9. a flow meter; 10. a short water pipe; 1001. a lower hose; 11. a long water pipe; 1101. an upper hose; 12. a water outlet nozzle; 13. a frame; 14. a filter layer; 1401. a vent channel; 15. an activated carbon layer; 16. a base; 1601. a vertical plate; 1602. a power-on port; 17. a stage; 18. an electric motor; 1801. a drive shaft; 19. and a stirring mechanism.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

In the first embodiment, as shown in fig. 1-4, a waste gas treatment device in waste silk waste cloth PA6 plastic recycling processing comprises a furnace body 4 and a base 16, the furnace body 4 is placed in the center of the upper surface of the base 16, stand columns 5 are installed around the upper surface of the base 16, the top of each stand column 5 supports the furnace body 4, an end cover 1 is installed at the top of the furnace body 4 through mounting screws, an air inlet pipe 7 is inserted below one side of the furnace body 4, an exhaust pipe 2 is inserted above the other side of the furnace body 4, a filter 3 is installed at the tail end of the exhaust pipe 2 through mounting screws, an upper water nozzle 8 is inserted above the front of the furnace body 4, a lower water nozzle 12 is inserted below the front of the furnace body 4, a water pipe group 6 is placed in front of the base 16, a flow meter 9 is installed above the water pipe group 6, short water pipes 10 are installed above two sides of the water pipe group 6, a long water pipe 11 is installed above the center of the water pipe group 6, a filter layer 14 is installed above the interior of the furnace body 4, an activated carbon layer 15 is arranged below the inner part of the furnace body 4, a frame 13 is connected below a base 16, a carrying platform 17 is placed at the center of the base 16, a motor 18 is placed at the top of the carrying platform 17, and a stirring mechanism 19 is arranged at the tail end of the motor 18.

In this embodiment: by installing devices such as an end cover 1, a stirring mechanism 19, a filter 3 and the like on the waste gas treatment equipment, the processing waste gas to be treated is led in through an air inlet pipe 7 during work, the waste gas is absorbed and reacted by the treatment liquid stored below the furnace body 4 for consumption, thereby reducing the harm of organic gas in the waste gas to the environment, simultaneously, the stirring mechanism 19 driven by the motor 18 is rotationally stirred under the furnace body 4, which is beneficial to increasing the full mixing of the waste gas and the liquid, further improving the thoroughness and the reaction efficiency of the waste gas treatment, the treated waste gas enters the filter 3 through the exhaust pipe 2, the movable baffle 302 in the filter 3 is made of elastic material, the furnace body 4 can be opened when the air pressure in the furnace body reaches the rated value, thereby ensuring that the pressure in the furnace body 4 is not too high, and meanwhile, the treatment degree of the waste gas is further ensured, and the problem of insufficient treatment degree of the waste gas is solved.

In the second embodiment, on the basis of the first embodiment, the sealing ring 101 is embedded inside the end cover 1 to ensure complete treatment of the waste gas inside the equipment, the exhaust flange 201 is welded at the tail end of the exhaust pipe 2 to exhaust the treated gas, the air inlet flange 701 is welded at the tail end of the air inlet pipe 7 to introduce the gas to be treated, the water pipe group 6 comprises an inlet pipe 601, and the inlet pipe 601 is connected to the tail end of the bottom of the flowmeter 9 to control the amount of the introduced liquid. The end of short water pipe 10 is connected with lower hose 1001 through quick-operation joint, lower hose 1001 is connected in the outside of lower water injection well choke 12, be used for leading-in cooling water, long water pipe 11 is terminal to be connected with last hose 1101 through quick-operation joint, it connects in the outside of last water injection well choke 8 to go up hose 1101, be used for deriving the cooling water, filter layer 14 is processed all around has a ventilation duct 1401 that link up, be used for adsorbing and subsiding solid particle, 16 both sides welding of base has riser 1601, processing has circular telegram mouth 1602 below riser 1601, be used for the support equipment whole, 18 end of motor has transmission shaft 1801 through the coupling joint, transmission shaft 1801 end-to-end connection has rabbling mechanism 19, be used for letting waste gas obtain fully absorbed reaction, filter 3 central processing has filter stand 301, filter stand 301 central authorities are inlayed and are had movable separation blade 302, be used for playing the effect of dynamic seal.

In this embodiment: through for devices such as exhaust-gas treatment equipment installation water piping group 6, activated carbon layer 15 and filter layer 14, utilize the furnace body 4 structure of bilayer, to wherein letting in cooling water, high-temperature gas's cooling has been accelerated, through having absorptive activated carbon layer 15, the solid impurity that makes to melt into in the liquid can adsorb, the performance of handling liquid has been guaranteed, the waste gas that leaves liquid upwards reachs filter layer 14, further block solid impurity, the improper problem of solid particle processing in traditional equipment to waste gas has been solved. The motor 18 is Y100L 2-4.

The working principle of the waste gas treatment equipment in the waste silk and waste cloth PA6 plastic recycling processing provided by the utility model is as follows:

the first innovation point implementation step:

the first step is as follows: introducing waste gas through an air inlet pipe 7, and treating the waste gas in the treatment liquid at the bottom of the furnace body 4;

the second step is that: the worker starts the motor 18 to drive the stirring mechanism 19 to stir the liquid, so as to accelerate the treatment and absorption of the waste gas;

the third step: the waste gas is treated and then accumulated upwards, and when the air pressure in the furnace body 4 reaches a rated value, the movable blocking piece 302 of the filter 3 is pushed open and released outwards.

The implementation step of the second innovation point:

the first step is as follows: while the exhaust gas is treated in the furnace body 4. Cooling water is introduced into the hollow part of the furnace body 4 and circulates through the water pipe group 6;

the second step is that: the waste gas passes through the activated carbon layer 15, solid particle impurities in the waste gas are adsorbed, and meanwhile, the impurities are remained in the liquid, so that the removal effect is enhanced;

the third step: the treated gas reaches the filter layer 14 upwards in the furnace body 4, and further the impurities are removed and isolated.

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

Claims (9)

1. The utility model provides a waste gas treatment equipment in waste silk cloth PA6 plastics recovery processing, includes furnace body (4) and base (16), its characterized in that: the furnace body (4) is placed at the center of the upper surface of the base (16), stand columns (5) are installed at the periphery of the upper surface of the base (16), the furnace body (4) is supported at the top of the stand columns (5), an end cover (1) is installed at the top of the furnace body (4) through mounting screws, an air inlet pipe (7) is inserted below one side of the furnace body (4), an exhaust pipe (2) is inserted above the other side of the furnace body (4), a filter (3) is installed at the tail end of the exhaust pipe (2) through mounting screws, an upper water nozzle (8) is inserted above the front of the furnace body (4), a lower water nozzle (12) is inserted below the front of the furnace body (4), a water pipe group (6) is placed in front of the base (16), a flow meter (9) is installed above the water pipe group (6), short water pipes (10) are installed above the two sides of the water pipe group (6), and a long water pipe (11) is installed above the center of the water pipe group (6), the furnace is characterized in that a filtering layer (14) is installed above the inner portion of the furnace body (4), an activated carbon layer (15) is installed below the inner portion of the furnace body (4), a frame (13) is connected below the base (16), a carrying platform (17) is placed in the center of the base (16), a motor (18) is placed at the top of the carrying platform (17), and a stirring mechanism (19) is installed at the tail end of the motor (18).

2. The waste gas treatment equipment in the plastic recycling process of waste silk and waste cloth PA6 as claimed in claim 1, wherein a sealing ring (101) is embedded inside the end cover (1), an exhaust flange (201) is welded at the tail end of the exhaust pipe (2), and an air inlet flange (701) is welded at the tail end of the air inlet pipe (7).

3. The waste gas treatment equipment in the plastic recycling process of waste silk and waste cloth PA6 as claimed in claim 1, wherein the water pipe group (6) comprises a water inlet pipe (601), and the water inlet pipe (601) is connected to the bottom end of the flow meter (9).

4. The waste gas treatment equipment in the plastic recycling process of waste silk and waste cloth PA6 as claimed in claim 1, wherein the end of the short water pipe (10) is connected with a lower hose (1001) through a quick coupling, and the lower hose (1001) is connected to the outer side of the lower water nozzle (12).

5. The waste gas treatment equipment in the plastic recycling process of waste silk and waste cloth PA6 according to claim 1, wherein the end of the long water pipe (11) is connected with an upper hose (1101) through a quick coupling, and the upper hose (1101) is connected to the outer side of the upper water nozzle (8).

6. The waste gas treatment equipment in the plastic recycling processing of waste silk and waste cloth PA6 of claim 1, wherein a through air channel (1401) is processed around the filter layer (14).

7. The waste gas treatment equipment in waste silk and waste cloth PA6 plastic recycling processing according to claim 1, wherein vertical plates (1601) are welded to two sides of the base (16), and a power-on port (1602) is processed below the vertical plates (1601).

8. The waste gas treatment equipment in the plastic recycling process of waste silk and waste cloth PA6 according to claim 1, wherein the end of the motor (18) is connected with a transmission shaft (1801) through a coupling, and the end of the transmission shaft (1801) is connected with a stirring mechanism (19).

9. The waste gas treatment equipment in the waste silk and waste cloth PA6 plastic recycling process of claim 1, wherein a filter rack (301) is processed in the center of the filter (3), and a movable baffle (302) is inlaid in the center of the filter rack (301).

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