CN208546990U - A kind of heat storage type combustion oxidation unit - Google Patents

Abstract

It include combustion chamber (2) for forming combustion space pernicious gas (G) containing volatile organic compounds and the regenerative chamber (3) for being located at combustion chamber (2) lower end the utility model discloses a kind of heat storage type combustion oxidation unit (1), regenerative chamber (3) is provided with the introducing portion (3a) and discharge unit (3b) of pernicious gas (G), heat storage type combustion oxidation unit further includes the connection outer cover (10) for connecting regenerative chamber (3) lower end, main body outer cover (20) below connection outer cover (10), rotating disk (30) between connection outer cover (10) and main body outer cover (20) is set, and the air shielding body (40) with annular air shield effectiveness.It effectively is separated by the pernicious gas (G) and clean gas (A) leaked in gap, improves oxidation quality and oxidation efficiency, and heat can effectively be utilized, the energy is saved, rotating disk (30) does not generate frictional force simultaneously, rotates it smoothly, and oxidation smoothly carries out.

Description

A kind of heat storage type combustion oxidation unit

Technical field

The utility model relates to air purification fields, and in particular to a kind of heat storage type combustion oxidation unit.

Background technique

In the production of present society, the large-scale factory such as shipyard, automobile factory, the adjoint production process of technique can be produced Raw a large amount of volatile organic compounds, with the harmful substances such as generation ozone after the light reaction in atmosphere.It can be to operation at the scene The health of staff cause very big injury, respiratory apparatus obstacle can be caused, generate carcinogen, while Such as haze, global warming environmental degradation phenomenon can be caused.

How these factories are in terms of eliminating the pernicious gas (G) generated in production process, and there are many kinds of methods, wherein most Representative method is exactly heat storage type combustion oxidation unit.Previous heat storage type combustion oxidation unit is that the property of will volatilize is organic A kind of device that compound is removed by burning, aoxidizing, and in order to effectively utilize the energy, will also burn pernicious gas (G) generated heat is recycled when, by being minimized of loss of energy.

On the other hand, the technical literature about previous heat storage type combustion oxidation unit, has opened and has shown that Korean registered is special Benefit the 10-0472222nd.Fig. 1 is the structural schematic diagram of the heat storage type combustion oxidation unit of above-mentioned technical literature.Herein, such as Shown in Fig. 1, previous heat storage type combustion oxidation unit regenerative chamber is all proximate to combustion chamber, and filling is certain in regenerative chamber and combustion chamber Quantity heat storage, the burn cycle of pernicious gas (G) is as shown in Fig. 2, pernicious gas (G) introducing-preheating (regenerative chamber)-burning (combustion chamber)-accumulation of heat (regenerative chamber)-discharge forms the 1st circulation.Pernicious gas (G) introducing-preheating (regenerative chamber)-burning (combustion Burn room)-accumulation of heat (regenerative chamber)-exhaust, the 2nd circulation is formed, two circulations are continuous to be worked alternatively.Therefore, in heat storage type combustion oxygen Disguise in the burn cycle set, the air inlet and exhaust outlet of two regenerative chambers work alternatively, and pernicious gas (G) is made full use of to burn The heat of generation handles next process, reaches and reduces energy consumption purpose.

As shown in the normal cross sectional drawing of heat storage type combustion oxidation unit and the sectional stereogram of Fig. 2 (b) of Fig. 2 (a), dividing Sub-air chamber (122), in heat storage (121) and regenerative chamber (120), the pernicious gas (G) of half is flowed into the channel of combustion chamber, Remaining half is discharge treated clean gas (A).

Above-mentioned regenerative chamber (120) is the wind wheel (150) for having outer cover (152) by distribution blade (151), side and resistance to combustion The distribution cylinder of burning is constituted.

In order to more accurately introduce or be discharged gas, having outer cover (152) by distribution blade (151), side Wind wheel (150) and the distribution cylinder of resistance to burning are substituted for the rotating disk of rotatable type.The rotation of this heat storage type combustion oxidation unit Turntable be in order to pernicious gas (G) introduce or be discharged, so the disk of rotating disk up and down to have certain gap, can not Generate friction, smooth rotation.But it in this way, the exhaust gas introduced can be made by gap penetration to exhaust outlet, therefore can be produced without The problem of pernicious gas (G) of burned oxidation is directly discharged, causes harm to the human body, pollute environment.

Therefore, the prior art also requires further improvement and develops.

Utility model content

The purpose of this utility model is to provide for a kind of heat storage type combustion oxidative system, it is intended to solve exhaust gas and pass through gap Exhaust outlet is infiltrated into, therefore the pernicious gas (G) that can be produced without burned oxidation is directly discharged, and is caused harm to the human body, The problem of polluting environment.

Used technical solution are as follows: a kind of heat storage type combustion oxidation unit (1) includes having for forming containing volatility The combustion chamber (2) of combustion space pernicious gas (G) of machine compound and the regenerative chamber (3) for being located at combustion chamber (2) lower end, regenerative chamber (3) it is provided with the introducing portion (3a) and discharge unit (3b) of pernicious gas (G), heat storage type combustion oxidation unit further includes connection accumulation of heat The connection outer cover (10) of room (3) lower end, the main body outer cover (20) being located at below connection outer cover (10), setting are in connection outer cover (10) Rotating disk (30) between main body outer cover (20) and the air shielding body (40) with annular air shield effectiveness, connection Cylindric connection main body (11) is provided in outer cover (10), connection main body (11) is internally provided with radial punch format Several points of stomatas (12)；Main body outer cover (20) includes main part (21) of the setting in the cylindrical shape of connection outer cover (10) lower end, The side of main part (21) is equipped with the air inlet (22) flowed into for pernicious gas (G), and the other side is equipped with discharge clean gas (A) Exhaust outlet (23), be equipped with driving portion (24) on the downside of main part (21)；Rotating disk (30) is connect with driving portion (24), the rotation Disk (30) includes the turntable body (31) of disc-shape, is provided on turntable body (31) lateral surface and flows for pernicious gas (G) Enter combustion chamber introduction passage (32), for connect any point of stomata (12) of main body (11) be connected to cleaning blowback channel (33), the discharge through portion (34) of the discharge clean gas (A) on the inside of turntable body (31) inside face, less than half divides stomata (12) it is connected by introduction passage (32) with turntable body (31), less than half divides in stomata (12) and turntable body (31) Pass through discharge through portion (34) connection on the inside of portion face；Air shielding body (40) setting is right in above-mentioned rotating disk (30) upper and lower side Rotating disk (30) direction injection air is answered to realize to introduction passage (32), clean blowback channel (33) and discharge through portion (34) area The isolation in domain.

Air shielding body (40) includes ring shielding washer (41), and ring shielding washer (41), which is equipped with, realizes inner air The pneumatic flow structure (42) of flowing, pneumatic flow structure (42) are connect with the air pressure supply structure (43) of supply air pressure.

Air pressure supply structure (43) includes the side feedway (431) that connection outer cover (10) outer peripheral surface is pasted, and side supplies It include stripe shape side duct (431a) and connection bar shaped side duct (431a) and pneumatic flow structure (42) to device (431) Connecting pipe (431b).

Air pressure supply structure (43) includes the central feedway (432) being set to inside connection outer cover (10) axle center, in Centre feedway (432) includes axle center pipeline (432a) and connection axle center pipeline (432a) and pneumatic flow structure of cylindrical shape (42) connecting hole (432b).

Pneumatic flow structure (42) includes groove profile puff prot (421), and groove profile puff prot (421) is by perforation ring shielding washer (41) the groove profile slot (421a) of inside face and the spray tank for cutting ring shielding washer side toward rotating disk (30) direction (421b) composition.

Pneumatic flow structure (42) includes perforation jet port (422), perforates jet port (422) by perforation ring shielding washer (41) the mobile perforation (422a) of inside face and corresponding rotating disk (30) side of mobile perforation (422a) carry out perforation and are formed by Multiple spray-hole (422b) compositions.

Driving portion (24) includes the axle center (241a) for being set to rotating disk (30) central part, the worm screw for connecting axle center (241a) Retarder (241b) and the drive motor (241c) of worm reducer (241b) connection.

Driving portion (24) includes the chain tooth (242a) and chain for being arranged in rotating disk (30) outer peripheral surface and protruding from outer peripheral surface The chain (242b) of tooth (242a) Matching installation, setting the chain side (242b) and chain (242b) transmission connection sprocket wheel The chain engine (242d) of (242c) and drive sprocket (242c).

The utility model has the advantages that the utility model provides a kind of New Regenerative combustion oxidation device, effectively it is separated by gap The pernicious gas (G) and clean gas (A) of leakage, improve oxidation quality and oxidation efficiency, and can be effective by heat It utilizes, has saved the energy, while rotating disk does not generate frictional force, rotated it smoothly, oxidation smoothly carries out.

Detailed description of the invention

Fig. 1 is the schematic diagram of previous heat storage type combustion oxidation unit.

Fig. 2 (a) is the normal cross sectional drawing of previous heat storage type combustion oxidation unit.

Fig. 2 (b) is the sectional stereogram of previous heat storage type combustion oxidation unit.

Fig. 3 is the structure chart of the heat storage type combustion oxidation unit in the utility model specific embodiment.

Fig. 4 is the partial structural diagram of the heat storage type combustion oxidation unit in the utility model specific embodiment.

Fig. 5 is the partial structural diagram of the heat storage type combustion oxidation unit in the utility model specific embodiment.

Fig. 6 (a) is the side of the air pressure supply structure of the heat storage type combustion oxidation unit in the utility model specific embodiment The structural schematic diagram of face feedway.

Fig. 6 (b) is in the air pressure supply structure of the heat storage type combustion oxidation unit in the utility model specific embodiment Entreat the structural schematic diagram of feedway.

Fig. 7 (a) is the slot of the pneumatic flow structure of the heat storage type combustion oxidation unit in the utility model specific embodiment The structural schematic diagram of type puff prot.

Fig. 7 (b) is wearing for the pneumatic flow structure of the heat storage type combustion oxidation unit in the utility model specific embodiment The structural schematic diagram of hole jet port.

Fig. 8 is that the structure of the gear type driving portion of the heat storage type combustion oxidation unit in the utility model specific embodiment is shown It is intended to.

Fig. 9 is that the structure of the chain-type driving portion of the heat storage type combustion oxidation unit in the utility model specific embodiment is shown It is intended to.

Specific embodiment

To keep the purpose of this utility model, technical solution and advantage clearer, clear, develop simultaneously implementation referring to the drawings The utility model is further described in example.

A kind of heat storage type combustion oxidation unit (1) as shown in figure 3, figure 4 and figure 5 includes having for forming containing volatility The combustion chamber (2) of combustion space pernicious gas (G) of machine compound and the regenerative chamber (3) for being located at combustion chamber (2) lower end, regenerative chamber (3) it is provided with the introducing portion (3a) and discharge unit (3b) of pernicious gas (G), heat storage type combustion oxidation unit further includes connection accumulation of heat The connection outer cover (10) of room (3) lower end, the main body outer cover (20) being located at below connection outer cover (10), setting are in connection outer cover (10) Rotating disk (30) between main body outer cover (20) and the air shielding body (40) with annular air shield effectiveness, connection Cylindric connection main body (11) is provided in outer cover (10), connection main body (11) is internally provided with radial punch format Several points of stomatas (12)；Main body outer cover (20) includes main part (21) of the setting in the cylindrical shape of connection outer cover (10) lower end, The side of main part (21) is equipped with the air inlet (22) flowed into for pernicious gas (G), and the other side is equipped with discharge clean gas (A) Exhaust outlet (23), be equipped with driving portion (24) on the downside of main part (21)；Rotating disk (30) is connect with driving portion (24), rotating disk (30) include disc-shape turntable body (31), be provided on turntable body (31) lateral surface and flowed into for pernicious gas (G) The introduction passage (32) of combustion chamber, for connect any point of stomata (12) of main body (11) be connected to cleaning blowback channel (33), The discharge through portion (34) of discharge clean gas (A) on the inside of turntable body (31) inside face, less than half divides stomata (12) It is connected by introduction passage (32) with turntable body (31), less than half divides stomata (12) and turntable body (31) inside face Inside passes through discharge through portion (34) connection；Air shielding body (40) is arranged in the top and bottom of above-mentioned rotating disk (30), Corresponding rotating disk (30) direction injection air is realized to introduction passage (32), cleans blowback channel (33) and discharge through portion (34) The isolation in region.Specifically, stomata (12) is divided to be evenly arranged with 12,5 are air inlet, and 5 ventholes, 1 clean with discharge The discharge through portion (34) of net gas (A) is corresponding, and 1 rest divides stomata (12) to be uniformly arranged 12, can be uniform by gas Dispersion.

The shape of the air shielding body (40) of rotating disk (30) top and bottom is different, the air shielding body of upper end It (40) is by dividing the stomata radiation that (12) are constituted annular, the air shielding body (40) of lower end is the ring being made of main part (21) Shape.

Air shielding body (40) includes ring shielding washer (41), and ring shielding washer (41), which is equipped with, realizes inner air The pneumatic flow structure (42) of flowing, pneumatic flow structure (42) are connect with the air pressure supply structure (43) of supply air pressure.

In embodiment, as shown in Figure 6 (a), air pressure supply structure (43) includes that connection outer cover (10) outer peripheral surface is pasted Side feedway (431), side feedway (431) include stripe shape side duct (431a) and be connected to bar shaped side duct The connecting pipe (431b) of (431a) and pneumatic flow structure (42).Preferably, side feedway (431) is mounted on main body The outer peripheral surface of outer cover (20).

In another embodiment, as shown in Figure 6 (b), air pressure supply structure (43) includes being set to connection outer cover (10) axis The central feedway (432) of interior portion, central feedway (432) include cylindrical shape axle center pipeline (432a) be connected to The connecting hole (432b) of axle center pipeline (432a) and pneumatic flow structure (42), axle center pipeline (432a) drive rotating disk (30) to turn It is dynamic.Preferably, pneumatic flow structure (42) is directly connected to connecting hole (432b).

In embodiment, as shown in Figure 7 (a), pneumatic flow structure (42) includes groove profile puff prot (421), groove profile jet Mouth (421) is from the groove profile slot (421a) of perforation ring shielding washer (41) inside face and makes ring shielding washer side toward rotation Spray tank (421b) composition that disk (30) direction is cut.

In a further preferred embodiment, as shown in Figure 7 (b), pneumatic flow structure (42) includes perforation jet port (422), Perforation jet port (422) is right by the mobile perforation (422a) of perforation ring shielding washer (41) inside face and mobile perforation (422a) It answers rotating disk (30) side to carry out perforation and is formed by multiple spray-holes (422b) composition.

In one embodiment, as shown in figure 8, driving portion (24) includes the axle center for being set to rotating disk (30) central part (241a), the worm reducer (241b) for connecting axle center (241a) and the drive motor of worm reducer (241b) connection (241c).Preferably, the rotation between worm reducer (241b) and drive motor (241c) is connected by shaft coupling.

In another embodiment, as shown in figure 9, driving portion (24) includes being arranged in rotating disk (30) outer peripheral surface and protruding from The chain (242b) of the chain tooth (242a) of outer peripheral surface and chain tooth (242a) Matching installation is arranged in the side chain (242b) With the sprocket wheel (242c) of chain (242b) transmission connection and the chain engine (242d) of drive sprocket (242c).Preferably, chain The side of item (242b) is provided with the tensioner for adjusting elasticity.

As shown in figure 3, figure 4 and figure 5, dry to be incinerated the pernicious gas (G) containing volatile organic compounds Only, pernicious gas (G) is smoothly introduced to the regenerative chamber (3) of combustion chamber (2) and combustion chamber (2) lower end, under connection regenerative chamber (3) The rotating disk (30) of rotation between cylinder-shaped connection outer cover (10) at end and cylindrical-shaped main body outer cover (20) is most important, rotation Disk (30) forms the flow path of perforation to the inflow of pernicious gas (G) and the discharge of clean gas (A).Rotating disk (30) is outer in connection It is rotated between cover (10) and main body outer cover (20), when turntable body (31) rotates, drawing on turntable body (31) lateral surface Enter divides stomata (12) to form access above channel (32) with more than half, introduction passage on turntable body (31) lateral surface (32) lower section is connected with air inlet (22), and pernicious gas (G) can smooth flowing in combustion chamber (2).Enter at pernicious gas (G) During combustion chamber (2), turntable body (31) is rotated by introduction passage (32) to the opposite direction of air inlet (22), can It to close combustion chamber (2), prevents other pernicious gases (G) from flowing into, burns more thorough.

Above discharge through portion (34) on turntable body (31) medial surface and less than half divides stomata (12) to be connected to, turn It is connected to below discharge through portion (34) on disc main body (31) medial surface with the exhaust outlet (23) of main part (21), combustion chamber (2) The clean gas (A) that left side burning generates can smoothly be discharged.

When pernicious gas (G) flows into and clean gas (A) is discharged, rotating disk (30) forms identical direction, can be simultaneously Execute the inflow and discharge of gas.

When the inflow of pernicious gas (G) and the discharge of clean gas (A) form excess load, clean blowback channel (33) to The direction of air inlet (22) and exhaust outlet (23) rotates, and can flow into, can alleviate super according to the specified influx in combustion chamber (2) Load.

It is empty in order to realize to introduction passage (32), the isolation for cleaning blowback channel (33) and through portion (34) region being discharged Air sprays in corresponding rotating disk (30) direction in gas shield mechanism (40), and rotating disk (30) top and bottom form certain when rotating Gap carries out the air inlet of the opposite direction in direction by air pressure supply structure (43) to pernicious gas (G) or clean gas (A) (22) or exhaust outlet (23) carries out air pressure injection.

As shown in Figure 6 (a), air pressure supply structure (43) includes the side feedway that connection outer cover (10) outer peripheral surface is pasted (431), side feedway (431) includes stripe shape side duct (431a) and connection bar shaped side duct (431a) and air pressure stream The connecting pipe (431b) of dynamic structure (42), air can be by gas using connecting pipe (431b) by side duct (431a) It is internal that pressure is supplied to air shielding body (40).

In a further preferred embodiment, as shown in Figure 6 (b), air pressure supply structure (43) includes being set to connection outer cover (10) the central feedway (432) inside axle center, central feedway (432) include the axle center pipeline (432a) of cylindrical shape With the connecting hole (432b) for being connected to axle center pipeline (432a) Yu pneumatic flow structure (42), air passes through axle center pipeline (432a), Using connecting hole (432b), it is internal that air pressure can be supplied to air shielding body (40).

As shown in Figure 7 (a), pneumatic flow structure (42) includes groove profile puff prot (421), and groove profile puff prot (421) is by passing through Lead to the groove profile slot (421a) of ring shielding washer (41) inside face and makes ring shielding washer side toward rotating disk (30) direction The spray tank (421b) of incision forms, and the air of supply can be sprayed by spray tank (421b).

In a further preferred embodiment, as shown in Figure 7 (b), pneumatic flow structure (42) includes perforation jet port (422), Perforation jet port (422) is right by the mobile perforation (422a) of perforation ring shielding washer (41) inside face and mobile perforation (422a) It answers rotating disk (30) side to carry out perforation and is formed by multiple spray-holes (422b) composition, the air of supply can pass through spray-hole (422b) injection.

As shown in figure 8, driving portion (24) includes the axle center (241a) for being set to rotating disk (30) central part, connection axle center The drive motor (241c) of worm reducer (241b) and worm reducer (241b) connection of (241a), rotating disk (30) It is smoothly rotated by worm reducer (241b).

Another preferably, in embodiment, as shown in figure 9, driving portion (24) includes being arranged in rotating disk (30) outer peripheral surface And it protrudes from the chain tooth (242a) of outer peripheral surface and the chain (242b) of chain tooth (242a) Matching installation, be arranged in chain The chain engine of the sprocket wheel (242c) and drive sprocket (242c) of the side (242b) and chain (242b) transmission connection (242d), rotating disk (30) are flexibly rotated by chain (242b).

It should be understood that the application of the utility model is not limited to above-mentioned citing, those of ordinary skill in the art are come It says, it can be modified or changed according to the above description, and all these modifications and variations all should belong to the appended power of the utility model The protection scope that benefit requires.

Claims (8)

1. a kind of heat storage type combustion oxidation unit, which is characterized in that heat storage type combustion oxidation unit (1) includes containing for forming The combustion chamber (2) of combustion space pernicious gas (G) of volatile organic compounds and the regenerative chamber for being located at combustion chamber (2) lower end (3), regenerative chamber (3) is provided with the introducing portion (3a) and discharge unit (3b) of pernicious gas (G), the heat storage type combustion oxidation unit It further include the connection outer cover (10) for connecting regenerative chamber (3) lower end, the main body outer cover (20) being located at below connection outer cover (10), setting Rotating disk (30) between connection outer cover (10) and main body outer cover (20) and the air shielding with annular air shield effectiveness Mechanism (40), connection outer cover (10) is interior to be provided with cylindric connection main body (11), and connection main body (11) is internally provided with Several points of stomatas (12) of radial punch format；The main body outer cover (20) includes setting in connection outer cover (10) lower end The main part (21) of cylindrical shape, the side of the main part (21) are equipped with the air inlet (22) flowed into for pernicious gas (G), The other side is equipped with the exhaust outlet (23) of discharge clean gas (A), is equipped with driving portion (24) on the downside of the main part (21)；The rotation Turntable (30) is connect with driving portion (24), and the rotating disk (30) includes the turntable body (31) of disc-shape, the turntable master It is provided with the introduction passage (32) for pernicious gas (G) flowing in combustion chamber on body (31) lateral surface, be used for and connect main body (11) the cleaning blowback channel (33) of any point of stomata (12) connection, the discharge clean gas on the inside of turntable body (31) inside face (A) discharge through portion (34), less than half divides stomata (12) to be connected by introduction passage (32) with turntable body (31), Less than half divides stomata (12) to be connected to on the inside of turntable body (31) inside face by the way that through portion (34) are discharged；Air shield machine Structure (40) setting is realized in above-mentioned rotating disk (30) upper and lower side, corresponding rotating disk (30) direction injection air to introduction passage (32), the isolation for cleaning blowback channel (33) and through portion (34) region being discharged.

2. heat storage type combustion oxidation unit according to claim 1, which is characterized in that air shielding body (40) includes ring Shape shielding gasket (41), ring shielding washer (41) are equipped with the pneumatic flow structure (42) for realizing inner air flowing, the gas Pressure fluidal texture (42) is connect with the air pressure supply structure (43) for supplying air pressure.

3. heat storage type combustion oxidation unit according to claim 2, which is characterized in that air pressure supply structure (43) includes connecting The side feedway (431) of outer cover (10) outer peripheral surface stickup is connect, the side feedway (431) includes bar shaped side duct (431a) and the connecting pipe (431b) for being connected to bar shaped side duct (431a) and pneumatic flow structure (42).

4. heat storage type combustion oxidation unit according to claim 2, which is characterized in that air pressure supply structure (43) includes setting The central feedway (432) being placed in inside connection outer cover (10) axle center, the center feedway (432) includes cylindrical shape Axle center pipeline (432a) and be connected to axle center pipeline (432a) and pneumatic flow structure (42) connecting hole (432b).

5. heat storage type combustion oxidation unit according to claim 2, which is characterized in that pneumatic flow structure (42) packet Include groove profile puff prot (421), groove profile puff prot (421) by perforation ring shielding washer (41) inside face groove profile slot (421a) With spray tank (421b) composition for cutting ring shielding washer side toward rotating disk (30) direction.

6. heat storage type combustion oxidation unit according to claim 2, which is characterized in that pneumatic flow structure (42) includes wearing Hole jet port (422), perforation jet port (422) by perforation ring shielding washer (41) inside face mobile perforation (422a) and move Dynamic corresponding rotating disk (30) side of perforation (422a) carries out perforation and is formed by multiple spray-holes (422b) composition.

7. heat storage type combustion oxidation unit according to claim 1, which is characterized in that the driving portion (24) includes setting In rotating disk (30) central part axle center (241a), connect axle center (241a) worm reducer (241b) and worm speed-down The drive motor (241c) of device (241b) connection.

8. heat storage type combustion oxidation unit according to claim 1, which is characterized in that the driving portion (24) includes setting In rotating disk (30) outer peripheral surface and protrude from the chain tooth (242a) of outer peripheral surface, the chain with chain tooth (242a) Matching installation The sprocket wheel (242c) and drive sprocket (242c) of (242b), setting in the chain side (242b) and chain (242b) transmission connection Chain engine (242d).