CN116833644B - Computer case processing device and method - Google Patents

Abstract

The invention relates to the technical field of welding. More particularly, the present invention relates to a computer case processing apparatus and method thereof. Technical problems: the floating time of the small bubbles is relatively short, so that the flue gas purifying effect is low. The technical scheme is as follows: a computer case processing device and a method thereof, wherein the lower part of the inner side of a square case body is connected with a shunt assembly; the square box body is connected with a limiting component; when the device is used, smoke flows in from the through holes uniformly distributed at the bottom of the liquid in the square box body, so that the problem of low smoke purification efficiency caused by too concentrated position of the smoke input liquid in the prior art is avoided, and when the bubbles formed by the smoke flow out from the through holes, the inner sides of the cavities are in a high-pressure state, so that the bubbles are impacted to the limiting rod at a high speed, and then the bubbles are divided into small bubbles through the limiting rod, so that the contact area of the smoke and the liquid is further improved, and the smoke purification effect is improved.

Description

Computer case processing device and method

Technical Field

The invention relates to the technical field of welding. More particularly, the present invention relates to a computer case processing apparatus and method thereof.

Background

At present, most of waste gas generated by welding is directly discharged into the atmosphere, and irreversible great influence is caused to living environment and physical health of people;

the prior Chinese patent: the welding fume water bath purifying device and the purifying method (CN 105289184A) realize the contact of the collected fume with the active water solution with the largest area, the active water solution is added with the activating agent, the microscopic effect of the activating agent is to dissolve in water and adhere to the dust of the particles, and the fume is further purified and adsorbed by the filtering dust collector of the device;

the flue gas in the input liquid is crushed into small bubbles through the bubble crushing bag, so that the contact area of the flue gas and the liquid is increased, and the flue gas purifying effect is improved, however, even if the flue gas in the input liquid is crushed into the small bubbles, the floating time of the small bubbles is relatively short, and particle impurities in the bubbles cannot be fully mixed with clear water, so that the flue gas purifying effect is low, and meanwhile, the position of the flue gas in the input liquid is too concentrated, so that peripheral liquid is not contacted with the flue gas, and the flue gas purifying efficiency is low.

Disclosure of Invention

The invention provides a computer case processing device and a method thereof, which aim to overcome the defect of low flue gas purifying effect caused by relatively short floating time of small bubbles.

In order to achieve the above object, the technical scheme of the present invention is as follows:

a computer case processing device comprises a first shell, a second shell, a first housing and an intelligent welder 4; a second shell is fixedly connected to the first shell; the second shell is fixedly connected with a first housing; the inner side of the second housing is connected with an intelligent welder 4; the device also comprises a first pipeline, an air pump, a square box body, a first cover plate, a top cover, a second pipeline, a flow distribution assembly and a limiting assembly; the first housing is communicated with a first pipeline; an air pump is arranged on the first pipeline and fixedly connected with the first housing; the inner side of the first shell is fixedly connected with a square box body; the square box body is fixedly connected with a first cover plate; a top cover is screwed on the first cover plate; the first cover plate is communicated with a second pipeline; the lower part of the inner side of the square box body is connected with a shunt assembly; the flow dividing assembly is used for dividing the flue gas into small bubbles; the square box body is connected with a limiting component; the limiting component is used for blocking and limiting the small bubbles.

Further, the flow dividing assembly comprises a box body, a second cover plate, a first connecting plate, an elastic block, a stop block and a sealing ring; the bottom of the inner side of the square box body is fixedly connected with a box body; the upper part of the inner side of the box body is fixedly connected with a second cover plate; a cavity is formed between the box body and the second cover plate; the lower end of the first pipeline sequentially passes through the first shell and the square box body and is communicated with the cavity; a plurality of through holes are uniformly formed in the second cover plate; a plurality of first connecting plates are fixedly connected to the second cover plate; a plurality of elastic blocks are fixedly connected on each first connecting plate; each elastic block is fixedly connected with a stop block; a sealing ring is fixedly connected to the lower side of each stop block, and the sealing ring is positioned on the outer side above the corresponding through hole; each sealing ring is contacted with the second cover plate.

Further, the flow dividing assembly further comprises a limiting rod; a plurality of limit rods are fixedly connected to the lower side of each stop block.

Further, the limiting component comprises a round rod, a connecting frame and a baffle; at least two round rods are slidably connected to the front side and the rear side of the square box body; all round bars in front are fixedly connected with a connecting frame; all round bars at the rear are fixedly connected with a connecting frame; a plurality of inclined baffles are fixedly connected between the two connecting frames.

Further, the device also comprises a dividing component; the baffle is connected with a dividing component; the dividing assembly comprises a connecting block, a second connecting plate, a silk thread and a vibration unit; each baffle is connected with a plurality of connecting blocks; the upper part of each baffle is fixedly connected with a second connecting plate, and a first groove is formed between the second connecting plate and the corresponding baffle; a plurality of silk threads are fixedly connected between each connecting block and the corresponding second connecting plate; the square box body is connected with a vibration unit; the vibration unit is used for driving the baffle plate to do small reciprocating motion.

Further, the vibration unit comprises a third connecting plate, a spring, a first motor and a cam; all round bars in front are fixedly connected with a third connecting plate; all round rods in front are sleeved with a spring, one end of the spring is fixedly connected with the third connecting plate, and the other end of the spring is fixedly connected with the square box body; the square box body is fixedly connected with a first motor; the first motor output shaft is fixedly connected with a cam; the cam is matched with the third connecting plate.

Further, the device also comprises a fine mesh net; each connecting frame is fixedly connected with an inclined fine pore net.

Further, the cleaning device also comprises a cleaning component; the baffle is connected with a cleaning component; the cleaning component comprises a sliding rod, a scraping block, a second housing, a second motor, a friction wheel, a rope and a first fixed block; each baffle is connected with a sliding rod in a sliding way, and the sliding rod is contacted with the corresponding connecting block; an even number of scraping blocks are fixedly connected to each sliding rod, and the scraping blocks are contacted with corresponding silk threads; at least two second covers are fixedly connected on each baffle; at least two second motors are arranged on the inner side of each second housing and fixedly connected with the corresponding baffle plates; each second motor output end is fixedly connected with a friction wheel; each baffle is connected with at least two ropes in a sliding way, and the ropes are contacted with the corresponding friction wheels; a first fixed block is fixedly connected between every two adjacent scraping blocks.

Further, the device also comprises an adjusting component; the baffle is connected with an adjusting component; the adjusting component comprises a second fixed block, an elastic telescopic rod and a third fixed block; each connecting block is in sliding connection with the corresponding baffle; each baffle is fixedly connected with second fixing blocks with the number corresponding to that of the connecting blocks, and the second fixing blocks are in sliding connection with the corresponding connecting blocks; each second fixing block is provided with a plurality of second grooves; each connecting block is fixedly connected with an elastic telescopic rod; the telescopic end of each elastic telescopic rod is fixedly connected with a third fixed block, the section of the third fixed block is in a right trapezoid shape, and the third fixed block is contacted with the corresponding second fixed block.

A computer case processing method comprises the following steps:

step one: fixing, namely manually fixing parts of the computer case on the inner side of the second housing through a fixture;

step two: welding, namely welding parts of the computer case through an intelligent welder;

step three: transferring, namely transferring the smoke generated by welding to a flow dividing assembly through an air pump;

step four: the flow is split, the flow splitting assembly divides the flue gas into small bubbles, and the small bubbles flow into the square box liquid;

step five: limiting type purification, wherein the limiting component blocks small bubbles, and the floating time of the small bubbles is prolonged.

The beneficial effects are that: according to the technical scheme, the flue gas flows in from the through holes uniformly distributed at the bottom of the liquid in the square box body, so that the problem of low flue gas purification efficiency caused by too concentrated positions of the flue gas input into the liquid in the prior art is avoided, and when the bubbles formed by the flue gas flow out from the through holes, the bubbles are impacted onto the limiting rod at a high speed due to the fact that the inner side of the cavity is in a high-pressure state, and the bubbles are further divided into small bubbles through the limiting rod, so that the contact area of the flue gas and the liquid is further improved, and the flue gas purification effect is further improved;

during purification, the baffle blocks and limits the floating small bubbles, so that the floating time of the small bubbles is prolonged, namely the contact time of the small bubbles and liquid is prolonged, the flue gas purification effect is improved, meanwhile, the small bubbles at the lower side of the baffle are cut into smaller bubbles through the silk threads, the contact area of flue gas and liquid is further improved, the flue gas purification effect is improved, meanwhile, the small bubbles at the front side and the rear side of the liquid are cut through the pore network, the flue gas purification effect is improved, the pore network is obliquely arranged, oblique downward thrust is applied to the small bubbles, and the cutting effect to the small bubbles is improved;

simultaneously, the slide bar drives and scrapes the piece slant upward movement, makes and scrapes the piece and scrape the impurity that will adhere to on the silk thread surface, has avoided the problem that influences the cutting bubble because of the impurity that the silk thread surface adheres to is too much, simultaneously, scrapes the piece tip shutoff to two adjacent through first fixed block, avoids scraping in-process silk thread and drops from two adjacent scraping piece clearance, and then avoids influencing follow-up scraping operation, simultaneously, the slide bar also is used for taut silk thread, has avoided the problem that the cutting effect that leads to because of the silk thread is not hard up descends.

Drawings

FIG. 1 is a schematic diagram of a computer case processing apparatus according to the present invention;

FIG. 2 shows a cross-sectional view of a computer case machining apparatus of the present invention;

FIG. 3 is a schematic view showing a part of the structure of the computer case processing device of the present invention;

FIG. 4 is a schematic view of another part of the computer case processing device according to the present invention;

FIG. 5 shows a schematic structural view of the diverter assembly of the present invention;

FIG. 6 shows a schematic view of a portion of the structure of the diverter assembly of the present invention;

FIG. 7 shows a schematic structural view of a segmentation assembly of the present invention;

FIG. 8 shows a schematic view of a portion of the structure of the segmentation assembly of the present invention;

FIG. 9 shows a schematic view of a portion of the construction of a cleaning assembly of the present invention;

fig. 10 shows a schematic view of a part of the structure of the adjusting assembly of the invention.

Marked in the figure as:

1-first shell, 2-second shell, 3-first housing, 4-intelligent welder, 5-first pipeline, 6-air pump, 7-square box, 8-first apron, 9-top cap, 10-second pipeline, 201-box, 202-second apron, 203-first connecting plate, 204-spring block, 205-stopper, 206-sealing ring, 207-gag lever post, 208-round bar, 209-connecting frame, 2010-baffle, 2011-connecting block, 2012-second connecting plate, 2013-wire, 2014-third connecting plate, 2015-spring, 2016-first motor, 2017-cam, 2018-mesh net, 2019-slide bar, 2020-scraper block, 2021-second housing, 2022-second motor, 2023-friction wheel, 2024-rope, 2025-first fixed block, 2026-second fixed block, 2027-spring telescopic rod, 2028-third fixed block, 91-cavity, 92-through hole, 93-first groove, 94-second groove.

Detailed Description

The invention is described in further detail below with reference to the drawings and the detailed description, but does not limit the scope of protection and the application of the invention.

Embodiment 1

1-6, a computer case processing device comprises a first shell 1, a second shell 2, a first housing 3 and an intelligent welder 4; the first shell 1 is connected with the second shell 2 through bolts; the second housing 2 is connected with a first housing 3 through bolts, and the first housing 3 is made of alloy materials; the inner side of the second shell 2 is connected with an intelligent welder 4; the device also comprises a first pipeline 5, an air pump 6, a square box 7, a first cover plate 8, a top cover 9, a second pipeline 10, a flow dividing component and a limiting component; the first housing 3 is communicated with and connected with a first pipeline 5 through bolts; an air pump 6 is arranged on the first pipeline 5, and the air pump 6 is fixedly connected with the first housing 3; the inner side of the first shell 1 is connected with a square box body 7 through bolts; the square box body 7 is connected with a first cover plate 8 through bolts; a top cover 9 is screwed on the first cover plate 8; the first cover plate 8 is communicated with and connected with a second pipeline 10 through bolts; the lower part of the inner side of the square box body 7 is connected with a flow dividing component; the flow dividing assembly is used for dividing the flue gas into small bubbles; the square box body 7 is connected with a limiting component; the limiting component is used for blocking and limiting the small bubbles.

The flow dividing assembly comprises a box body 201, a second cover plate 202, a first connecting plate 203, an elastic block 204, a stop block 205 and a sealing ring 206; the bottom of the inner side of the square box body 7 is connected with a box body 201 through bolts; the upper part of the inner side of the box body 201 is connected with a second cover plate 202 through bolts; a cavity 91 is formed between the case 201 and the second cover 202; the lower end of the first pipeline 5 sequentially passes through the first shell 1 and the square box body 7 and is communicated with the cavity 91; a plurality of through holes 92 are uniformly formed in the second cover plate 202, the through holes 92 can be round holes, and the through holes 92 can also be square holes; a plurality of first connecting plates 203 are welded on the second cover plate 202; each first connecting plate 203 is connected with a plurality of elastic blocks 204 through bolts; each elastic block 204 is connected with a stop block 205 through bolts, and when the air pressure in the cavity 91 rises to a limit value, the stop blocks 205 are pushed to open, so that the flue gas in the cavity 91 is divided into a plurality of parts to flow out; a sealing ring 206 is fixedly connected to the lower side of each stop block 205, the sealing ring 206 is positioned on the outer side above the corresponding through hole 92, and the sealing ring 206 is made of rubber; each seal 206 is in contact with the second cover plate 202.

The diverter assembly also includes a stop lever 207; a plurality of limit rods 207 are welded to the lower side of each stop block 205, and gas flowing out of the cavity 91 impacts the limit rods 207, so that the gas is divided into a plurality of parts again by the limit rods 207.

Firstly, the top cover 9 is manually unscrewed, then the liquid for purifying the smoke is injected into the square box body 7, the liquid level is five centimeters lower than the first cover plate 8, then the top cover 9 is screwed back to the original position, then the external exhaust pipe is communicated to the second pipeline 10, the preparation work is completed, during welding, the computer case spare and accessory parts are manually fixed on the inner side of the second housing 2 through a fixture, then the computer case spare and accessory parts are welded through the intelligent welder 4, the smoke generated by welding is dispersed on the inner sides of the second housing 2 and the first housing 3, the air pump 6 is started, the upper part of the first pipeline 5 on the air pump 6 is sucked, so that the smoke on the inner sides of the second housing 2 and the first housing 3 flows into the first pipeline 5, then flows into the cavity 91 from the first pipeline 5, the air pressure in the cavity 91 is gradually increased, when the air pressure reaches the limit value, the stop 205 is pushed upwards to turn over, the stop 205 extrudes and deforms the elastic block 204, the stop dog 205 drives the sealing ring 206 to stop contacting the second cover plate 202, so as to stop plugging the through hole 92, then the flue gas in the cavity 91 flows into the liquid of the square box body 7 from the through hole 92, and the through hole 92 is uniformly distributed at the bottom of the liquid of the square box body 7, so that the flue gas is divided into bubbles which uniformly flow into all positions of the liquid of the square box body 7, the problem of low flue gas purifying efficiency caused by too concentrated position of the flue gas input liquid in the prior art is avoided, and when the bubbles formed by the flue gas flow out from the through hole 92, the bubbles are impacted onto the limit rod 207 at a high speed due to the high pressure state inside the cavity 91, the bubbles are divided into small bubbles through the limit rod 207, the contact area of the flue gas and the liquid is further improved, the flue gas purifying effect is improved, the small bubbles float in the liquid, at this moment, the limiting component blocks and limits the floating small bubbles, prolongs the residence time of the small bubbles in the liquid, and is favorable for improving the flue gas purifying effect.

Embodiment 2

On the basis of the embodiment 1, as shown in fig. 1-2 and fig. 7-8, the limiting assembly comprises a round bar 208, a connecting frame 209 and a baffle 2010; the front side and the rear side of the square box body 7 are both connected with two round rods 208 in a sliding manner; all round bars 208 in front are fixedly connected with a connecting frame 209; all round bars 208 at the rear are fixedly connected with a connecting frame 209; twelve inclined baffles 2010 are welded between the two connecting frames 209, and the inclined baffles 2010 block and limit bubbles above the connecting frames, so that the residence time of the bubbles in the liquid is prolonged.

The device also comprises a segmentation component; the baffle 2010 is connected with a dividing component; the dividing assembly comprises a connecting block 2011, a second connecting plate 2012, a silk thread 2013 and a vibration unit; each baffle 2010 is connected with a plurality of connecting blocks 2011; a second connecting plate 2012 is welded on the upper part of each baffle 2010, and a first groove 93 is formed between the second connecting plate 2012 and the corresponding baffle 2010; a plurality of wires 2013 are fixedly connected between each connecting block 2011 and the corresponding second connecting plate 2012, and bubbles attached to the lower side of the baffle 2010 are divided by the wires 2013; the square box body 7 is connected with a vibration unit; the vibration unit is used for driving the baffle 2010 to do small reciprocating motion.

The vibration unit comprises a third connecting plate 2014, a spring 2015, a first motor 2016 and a cam 2017; all the round bars 208 in front are welded with a third connecting plate 2014 together; all round bars 208 in front are sleeved with a spring 2015, one end of the spring 2015 is fixedly connected with a third connecting plate 2014, and the other end of the spring 2015 is fixedly connected with a square box body 7; the square box body 7 is connected with a first motor 2016 through bolts; the cam 2017 is fixedly connected to the output shaft of the first motor 2016, and the cam 2017 is made of alloy materials; the cam 2017 mates with the third web 2014.

Also included is a fine mesh 2018; each of the connecting frames 209 is bolted with an inclined fine mesh 2018.

The small bubbles formed by the flue gas automatically float in the liquid and contact the lower side surface of the baffle 2010, and the baffle 2010 is obliquely arranged, so that the small bubbles always have a trend of upward movement under the action of buoyancy, and accordingly the small bubbles obliquely move upward along the lower side surface of the baffle 2010, the floating time of the small bubbles is prolonged, namely the contact time of the small bubbles and the liquid is prolonged, and the flue gas purifying effect is improved.

When the small bubbles move obliquely upwards along the lower side surface of the baffle 2010, the first motor 2016 is started, the first motor 2016 drives the cam 2017 to rotate, the cam 2017 contacts the third connecting plate 2014 when rotating and pushes the third connecting plate 2014 to move forwards, the third connecting plate 2014 drives the round bar 208 to move forwards and stretch the spring 2015, when the cam 2017 rotates to the original position, the spring 2015 rebounds to drive the third connecting plate 2014 to move back to the original position, the third connecting plate 2014 drives the round bar 208 to move back to the original position, the cam 2017 continuously rotates, the round bar 208 makes reciprocating motion, the round bar 208 drives the connecting frame 209 to move, the connecting frame 209 drives the baffle 2010 and parts on the baffle 2010 to make reciprocating motion back and forth, the wire 2013 cuts small bubbles on the lower side of the baffle 2010 into smaller bubbles, then the small bubbles cut into smaller bubbles on the lower side of the baffle 2010 through the wire 2013 and the first groove 93 between the second connecting plate 2012 upwards, and when in use, the contact area with liquid is further improved, and therefore the flue gas purifying effect is improved.

When the small bubbles formed by the flue gas automatically float in the liquid, the baffle 2010 cannot block and intercept the small bubbles at the front side and the rear side of the liquid, at the moment, the first motor 2016 is started, the connecting frame 209 drives the fine pore net 2018 to reciprocate back and forth, so that the fine pore net 2018 cuts the small bubbles at the front side and the rear side of the liquid, the flue gas purifying effect is improved, the fine pore net 2018 is obliquely arranged, when the fine pore net 2018 moves towards the small bubbles, oblique downward thrust is applied to the small bubbles, the small bubbles have upward movement trend due to buoyancy, the cutting effect of the small bubbles can be improved, and the flue gas purifying effect is improved.

Embodiment 3

On the basis of the embodiment 2, as shown in fig. 1-2 and 7-10, a cleaning assembly is further included; the baffle 2010 is connected with a cleaning component; the cleaning component comprises a sliding rod 2019, a scraping block 2020, a second housing 2021, a second motor 2022, a friction wheel 2023, a rope 2024 and a first fixed block 2025; each baffle 2010 is slidably connected with a sliding rod 2019, and the sliding rod 2019 is in contact with a corresponding connecting block 2011; an even number of scraping blocks 2020 are welded on each sliding rod 2019, the scraping blocks 2020 are in contact with the corresponding silk threads 2013, impurities attached to the silk threads 2013 are scraped off through the scraping blocks 2020, and the segmentation operation is prevented from being influenced; two second housings 2021 are bolted to each baffle 2010; two second motors 2022 are arranged on the inner side of each second housing 2021, and the second motors 2022 are connected with corresponding baffles 2010 through bolts; each second motor 2022 has an output end fixedly connected with a friction wheel 2023; each baffle 2010 is slidably connected with two ropes 2024, and the ropes 2024 are in contact with the corresponding friction wheels 2023; a first fixing block 2025 is fixedly connected between every two adjacent scraping blocks 2020.

The device also comprises an adjusting component; the baffle 2010 is connected with an adjusting component; the adjusting component comprises a second fixed block 2026, an elastic telescopic rod 2027 and a third fixed block 2028; each connecting block 2011 is slidably connected to a corresponding baffle 2010; each baffle 2010 is fixedly connected with second fixing blocks 2026 with the number corresponding to the number of the connecting blocks 2011, and the second fixing blocks 2026 are in sliding connection with the corresponding connecting blocks 2011; each second fixing block 2026 is provided with a plurality of second grooves 94; an elastic telescopic rod 2027 is fixedly connected to each connecting block 2011; a third fixing block 2028 is fixedly connected to the telescopic end of each elastic telescopic rod 2027, the cross section of the third fixing block 2028 is in a right trapezoid shape, and the third fixing block 2028 is in contact with the corresponding second fixing block 2026.

After the particle impurities in the flue gas are dissolved in the liquid, the particle impurities are attached to the surface of the silk thread 2013, so that the cutting effect of the silk thread 2013 on bubbles is reduced, at the moment, the second motor 2022 is started, the second motor 2022 drives the friction wheel 2023 to rotate, the friction wheel 2023 drives the rope 2024 to move through friction force, the rope 2024 drives the slide rod 2019 to move obliquely upwards, the slide rod 2019 drives the scraping block 2020 to move obliquely upwards, the scraping block 2020 scrapes the impurities attached to the surface of the silk thread 2013, the problem that the cutting bubbles are influenced due to excessive impurities attached to the surface of the silk thread 2013 is avoided, the end parts of two adjacent scraping blocks 2020 are blocked through the first fixing block 2025, the silk thread 2013 is prevented from falling off from gaps between the two adjacent scraping blocks 2020 in the scraping process, and further the influence on the subsequent scraping operation is avoided.

After the silk thread 2013 is used for a long time, a loosening phenomenon occurs, so that the cutting effect of the silk thread 2013 on bubbles is reduced, at the moment, the second motor 2022 is started, the rope 2024 drives the slide bar 2019 to move obliquely downwards, the slide bar 2019 pushes the connecting block 2011 to slide on the second fixing block 2026, the connecting block 2011 drives the elastic telescopic rod 2027 to move, the elastic telescopic rod 2027 drives the third fixing block 2028 to move, the third fixing block 2028 is forced to move away from the second fixing block 2026 due to the fact that the third fixing block 2028 is in a right trapezoid shape, the elastic telescopic rod 2027 compresses the elastic telescopic rod 2027, the connecting block 2011 continues to move until the silk thread 2013 is tensioned, at the moment, the elastic telescopic rod 2027 rebounds to drive the third fixing block 2028 to move, the third fixing block 2028 is inserted into the second groove 94 of the second fixing block 2026, the connecting block 2011 is fixed, and when the connecting block 2019 is used, the slide bar 2019 is also used for tensioning the silk thread 2013, and the problem that the cutting effect is reduced due to loosening of the silk thread 2013 is avoided.

A computer case processing method comprises the following steps:

step one: fixing, namely manually fixing parts of the computer case on the inner side of the second shell 2 through a fixture;

step two: welding, namely welding parts of the computer case through the intelligent welder 4;

step three: transferring, namely transferring the smoke generated by welding to a flow dividing assembly through an air pump 6;

step four: the flow is split, the split component divides the flue gas into small bubbles, and the small bubbles flow into the liquid in the square box body 7;

step five: limiting type purification, wherein the limiting component blocks small bubbles, and the floating time of the small bubbles is prolonged.

While the disclosure has been described with respect to only a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims (6)

1. A computer case processing device comprises a first shell (1); a second housing (2) is fixedly connected to the first housing (1); the second housing (2) is fixedly connected with a first housing (3); an intelligent welder (4) is connected to the inner side of the second housing (2); the method is characterized in that: a first pipeline (5) is communicated with the first housing (3); an air pump (6) is arranged on the first pipeline (5), and the air pump (6) is fixedly connected with the first housing (3); the inner side of the first shell (1) is fixedly connected with a square box body (7); a first cover plate (8) is fixedly connected on the square box body (7); a top cover (9) is screwed on the first cover plate (8); the first cover plate (8) is communicated with a second pipeline (10); the lower part of the inner side of the square box body (7) is connected with a flow dividing component; the flow dividing assembly is used for dividing the flue gas into small bubbles; a limit component is connected to the square box body (7); the limiting component is used for blocking and limiting the small bubbles;

the shunt assembly comprises a box body (201); the bottom of the inner side of the square box body (7) is fixedly connected with a box body (201); the upper part of the inner side of the box body (201) is fixedly connected with a second cover plate (202); a cavity (91) is formed between the box body (201) and the second cover plate (202); the lower end of the first pipeline (5) sequentially passes through the first shell (1) and the square box body (7) and is communicated with the cavity (91); a plurality of through holes (92) are uniformly formed in the second cover plate (202); a plurality of first connecting plates (203) are fixedly connected on the second cover plate (202); a plurality of elastic blocks (204) are fixedly connected on each first connecting plate (203); each elastic block (204) is fixedly connected with a stop block (205); a sealing ring (206) is fixedly connected to the lower side of each stop block (205), and the sealing ring (206) is positioned on the outer side above the corresponding through hole (92); each sealing ring (206) is contacted with the second cover plate (202);

the diverting assembly further comprises a limit rod (207); a plurality of limit rods (207) are fixedly connected to the lower side of each stop block (205);

the limiting component comprises a round rod (208); at least two round rods (208) are slidably connected to the front side and the rear side of the square box body (7); all round bars (208) in front are fixedly connected with a connecting frame (209) together; all round bars (208) at the rear are fixedly connected with a connecting frame (209) together; a plurality of inclined baffles (2010) are fixedly connected between the two connecting frames (209);

the device also comprises a segmentation component; the baffle plate (2010) is connected with a dividing component; the dividing component comprises a connecting block (2011); each baffle plate (2010) is connected with a plurality of connecting blocks (2011); a second connecting plate (2012) is fixedly connected to the upper part of each baffle plate (2010), and a first groove (93) is formed between the second connecting plate (2012) and the corresponding baffle plate (2010); a plurality of wires (2013) are fixedly connected between each connecting block (2011) and the corresponding second connecting plate (2012); the square box body (7) is connected with a vibration unit; the vibration unit is used for driving the baffle plate (2010) to do small reciprocating motion.

2. The computer case processing device according to claim 1, wherein: the vibration unit comprises a third connecting plate (2014); all round bars (208) in front are fixedly connected with a third connecting plate (2014) together; all round bars (208) in front are sleeved with a spring (2015), one end of the spring (2015) is fixedly connected with a third connecting plate (2014), and the other end of the spring (2015) is fixedly connected with a square box body (7); a first motor (2016) is fixedly connected to the square box body (7); the output shaft of the first motor (2016) is fixedly connected with a cam (2017); the cam (2017) mates with a third web (2014).

3. The computer case processing device according to claim 1, wherein: further comprising a fine mesh (2018); each connecting frame (209) is fixedly connected with an inclined fine pore net (2018).

4. A computer case processing apparatus according to claim 3, wherein: the cleaning device also comprises a cleaning component; the baffle plate (2010) is connected with a cleaning component; the cleaning component comprises a sliding rod (2019); each baffle plate (2010) is connected with a sliding rod (2019) in a sliding manner, and the sliding rods (2019) are in contact with corresponding connecting blocks (2011); an even number of scraping blocks (2020) are fixedly connected to each sliding rod (2019), and the scraping blocks (2020) are contacted with corresponding silk threads (2013); at least two second covers (2021) are fixedly connected to each baffle plate (2010); at least two second motors (2022) are arranged on the inner side of each second housing (2021), and the second motors (2022) are fixedly connected with the corresponding baffle plates (2010); the output end of each second motor (2022) is fixedly connected with a friction wheel (2023); each baffle plate (2010) is connected with at least two ropes (2024) in a sliding manner, and the ropes (2024) are in contact with the corresponding friction wheels (2023); a first fixed block (2025) is fixedly connected between every two adjacent scraping blocks (2020).

5. The computer case processing device according to claim 4, wherein: the device also comprises an adjusting component; the baffle plate (2010) is connected with an adjusting component; the adjusting assembly comprises a second fixed block (2026); each connecting block (2011) is in sliding connection with a corresponding baffle plate (2010); each baffle plate (2010) is fixedly connected with second fixing blocks (2026) with the number corresponding to that of the connecting blocks (2011), and the second fixing blocks (2026) are in sliding connection with the corresponding connecting blocks (2011); each second fixing block (2026) is provided with a plurality of second grooves (94); an elastic telescopic rod (2027) is fixedly connected to each connecting block (2011); the telescopic end of each elastic telescopic rod (2027) is fixedly connected with a third fixed block (2028), the cross section of the third fixed block (2028) is in a right trapezoid shape, and the third fixed block (2028) is in contact with the corresponding second fixed block (2026).

6. A computer case processing method for the computer case processing apparatus according to any one of claims 1 to 5, characterized in that: the method comprises the following steps:

step one: fixing, namely manually fixing parts of the computer case on the inner side of the second housing (2) through a fixture;

step two: welding, namely performing welding operation on parts of the computer case through an intelligent welder (4);

step three: transferring, namely transferring the smoke generated by welding to a flow dividing assembly through an air pump (6);

step four: the flow is split, the flow splitting assembly divides the flue gas into small bubbles, and the small bubbles flow into the liquid of the square box body (7); step five: limiting type purification, wherein the limiting component blocks small bubbles, and the floating time of the small bubbles is prolonged.