CN208990523U - A kind of electrodeless ultraviolet light for industrial waste gas processing - Google Patents
A kind of electrodeless ultraviolet light for industrial waste gas processing Download PDFInfo
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- CN208990523U CN208990523U CN201821670131.0U CN201821670131U CN208990523U CN 208990523 U CN208990523 U CN 208990523U CN 201821670131 U CN201821670131 U CN 201821670131U CN 208990523 U CN208990523 U CN 208990523U
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- air inlet
- inlet duct
- fixedly connected
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- pipe
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Abstract
The utility model discloses a kind of electrodeless ultraviolet lights for industrial waste gas processing, including pedestal, the side of the pedestal offers air inlet duct, and sealing is fixedly installed with fixed plate in air inlet duct, sealing is fixedly installed with air inlet pipe in the fixed plate, one end of the air inlet pipe extends in air inlet duct, shaft is rotatably connected in the bottom interior wall of the air inlet duct, and the top of shaft runs through the top inner wall of air inlet duct and extends to the top of pedestal, the shaft and the sealing of the top inner wall of air inlet duct are rotatablely connected, sliding sleeve is equipped with the first mounting disc in the shaft and fixing sleeve is equipped with the second mounting disc, and first mounting disc be located at the top of the second mounting disc and be respectively positioned in air inlet duct.The utility model is easy to operate, gas exchanges can be carried out to air inlet duct by starting turbofan, then start driving motor and drive the displacement of ultraviolet light ontology annular, deodorization is carried out to exhaust gas ontology, so that treated, exhaust gas ontology will not have stink, will not influence environment.
Description
Technical field
The utility model relates to technical field of waste gas treatment more particularly to a kind of electrodeless purple lights for industrial waste gas processing
Lamp.
Background technique
Non-polarized lamp is made of glass lamp and magnetic core winding, and filling mercury atom and inert gas in fluorescent tube, it passes through electricity
The frequency that sub-ballast generates makes magnetic core winding create magnetic field around glass lamp and causes the acceleration of free electron, this
A little free electrons and mercury atom collide and excite the inert gas inside glass lamp and ionize, when activation electronics from
Upper state radiates ultraviolet light when falling back on lower state, then converts visible light for ultraviolet light and be used to illuminate.
It can not usually be filtered with odorous gas, and when handling exhaust gas in existing industrial waste gas, so
Discharge often pollutes natural environment with gas frowzy, so it is proposed that a kind of handled for industrial waste gas
Electrodeless ultraviolet light, for solving the problems, such as above-mentioned propose.
Utility model content
Purpose of the utility model is to solve disadvantages existing in the prior art, and the one kind proposed is used for Industry Waste
The electrodeless ultraviolet light of gas disposal.
To achieve the goals above, the utility model adopts the technical scheme that
A kind of electrodeless ultraviolet light for industrial waste gas processing, including pedestal, the side of the pedestal offer air inlet duct,
And sealing is fixedly installed with fixed plate in air inlet duct, sealing is fixedly installed with air inlet pipe in the fixed plate, the air inlet pipe
One end extends in air inlet duct, shaft is rotatably connected in the bottom interior wall of the air inlet duct, and air inlet is run through on the top of shaft
The top inner wall of the top inner wall of slot and the top for extending to pedestal, the shaft and air inlet duct, which seals, to be rotatablely connected, and described turn
Sliding sleeve is equipped with the first mounting disc on axis and fixing sleeve is equipped with the second mounting disc, and the first mounting disc is located at the upper of the second mounting disc
Side is simultaneously respectively positioned in air inlet duct, and driving motor is fixedly installed at the top of the pedestal, and fixed on the output shaft of driving motor
Second bevel gear being installed, and fixing sleeve is equipped with the first bevel gear in shaft, first bevel gear is located at the top of pedestal, and
First bevel gear is meshed with the second bevel gear, installing pipe is fixedly installed in the air inlet duct, and one end of installing pipe is fixed
It is connected with conical pipe, being sealedly and fixedly connected on the side inner wall of the air inlet duct has escape pipe, and one end of the escape pipe extends
It is sealedly and fixedly connected in conical pipe and with the inner wall of conical pipe, and the other end of escape pipe extends to the outside of pedestal, it is described
Turbofan is fixedly installed in installing pipe.
Preferably, it is fixedly connected to deck at the top of the bottom of first mounting disc and the second mounting disc, and be located at
Two opposite decks offer card slot, are installed with the same ultraviolet light ontology positioned at two opposite card slots.
Preferably, the shaft is equipped with mobile chamber, offers cunning in the two sides bottom interior wall of the mobile chamber
Hole is moved, sealing slidably connects pull rod in the mobile cavity room, and the top of the pull rod extends to the top of shaft and fixed peace
Top inner wall sealing equipped with pulling plate, and pull rod and mobile chamber is slidably connected.
Preferably, the bottom end of the pull rod is fixedly connected with connecting rod, and the both ends of connecting rod extend through two sliding eyes simultaneously
It is fixedly connected with the inner wall of the first mounting disc, compressed spring, the bottom end of the compressed spring and connection is arranged on the pull rod
The bottom of bar is fixedly connected, and the top of the compressed spring is fixedly connected with the top inner wall of mobile chamber.
Preferably, the inner wall of the air inlet pipe and an air outlet pipe is fixedly connected to unidirectional seat, offers on the unidirectional seat
Connecting hole slidably connects gag lever post in the connecting hole, and one end of the gag lever post is fixedly connected with sealing plate, the sealing
The side of plate extends to the outside of unidirectional seat and is fixedly connected with cover board, and the cover board is in contact with the side of unidirectional seat.
Preferably, the same mounting post, the limit are fixedly connected in the top inner wall and bottom interior wall of the connecting hole
One end of position bar is slidably connected through mounting post and with mounting post, and extension spring, the stretching bullet are arranged on the gag lever post
The both ends of spring are fixedly connected with the side of the side of sealing plate and mounting post respectively.
Compared with prior art, the utility model has the beneficial effects that starting turbofan first for the gas in air inlet duct
Body is pumped to conical pipe, and the sealing plate being now placed on escape pipe will be moved under the promotion of air pressure to be moved in sealing plate
When dynamic, gag lever post can be driven to be moved, and extension spring can be made to be in stress, until sealing plate removes connection
Hole, so at this time escape pipe is in connected state, the gas in air inlet duct will be discharged by escape pipe, in air inlet duct
The process of gas discharge, will cause and form subnormal ambient in air inlet duct, so the cover board being located in air inlet pipe will be pulled,
When cover board is moved, coupled sealing plate can be driven to be moved, until sealing plate is moved in air inlet pipe, at this time
Air inlet pipe is in connected state, and at this moment extraneous exhaust gas ontology will be entered in air inlet duct by air inlet pipe, forms gas exchanges
Process, after the completion of gas exchanges, at this time close turbofan and start driving motor can drive ultraviolet light ontology into
Row annular displacement, carries out deodorization to exhaust gas ontology.
The utility model is easy to operate, can carry out gas exchanges to air inlet duct by starting turbofan, then start
Driving motor drives the displacement of ultraviolet light ontology annular, carries out deodorization to exhaust gas ontology, exhaust gas ontology will not band so that treated
There is stink, will not influence environment.
Detailed description of the invention
Fig. 1 be the utility model proposes it is a kind of for industrial waste gas processing electrodeless ultraviolet light structural front view;
Fig. 2 be the utility model proposes it is a kind of for industrial waste gas processing electrodeless ultraviolet light mobile chamber structure master
View;
Fig. 3 be the utility model proposes it is a kind of for industrial waste gas processing electrodeless ultraviolet light unidirectional holder structure main view
Figure.
In figure: 1 pedestal, 2 air inlet ducts, 3 fixed plates, 4 air inlet pipe, 5 shafts, 6 first mounting discs, 7 second mounting discs, 8 purples
Light lamp ontology, 9 first bevel gears, 10 driving motors, 11 second bevel gears, 12 installing pipes, 13 turbofans, 14 conical pipes, 15
Escape pipe, 16 unidirectional seats, 17 mobile chambers, 18 pull rods, 19 compressed springs, 20 connecting holes, 21 mounting posts, 22 gag lever posts, 23 are drawn
Stretch spring, 24 sealing plates, 25 cover boards.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.
Referring to Fig.1-3, a kind of electrodeless ultraviolet light for industrial waste gas processing, including pedestal 1, the side of pedestal 1 open up
There is air inlet duct 2, and sealing is fixedly installed with fixed plate 3 in air inlet duct 2, sealing is fixedly installed with air inlet pipe 4 in fixed plate 3, into
One end of tracheae 4 extends in air inlet duct 2, shaft 5 is rotatably connected in the bottom interior wall of air inlet duct 2, and the top of shaft 5 is passed through
It piercing into the top inner wall of air drain 2 and extends to the top of pedestal 1, the top inner wall of shaft 5 and air inlet duct 2, which seals, to be rotatablely connected,
Sliding sleeve is equipped with the first mounting disc 6 in shaft 5 and fixing sleeve is equipped with the second mounting disc 7, and the first mounting disc 6 is located at the second installation
The top of disk 7 is simultaneously respectively positioned in air inlet duct 2, and the top of pedestal 1 is fixedly installed with driving motor 10, and the output of driving motor 10
The second bevel gear 11 is fixedly installed on axis, and fixing sleeve is equipped with the first bevel gear 9 in shaft 5, the first bevel gear 9 is located at pedestal
1 top, and the first bevel gear 9 is meshed with the second bevel gear 11, installing pipe 12 is fixedly installed in air inlet duct 2, and install
One end of pipe 12 is fixedly connected with conical pipe 14, and being sealedly and fixedly connected on the side inner wall of air inlet duct 2 has escape pipe 15, escape pipe
15 one end extends in conical pipe 14 and is sealedly and fixedly connected with the inner wall of conical pipe 14, and the other end of escape pipe 15 extends
To the outside of pedestal 1, turbofan 13 is fixedly installed in installing pipe 12, starting turbofan 13 first will be in air inlet duct 2
Gas is pumped to conical pipe 14, and the sealing plate 24 being now placed on escape pipe 15 will be moved under the promotion of air pressure
When sealing plate 24 is mobile, gag lever post 22 can be driven to be moved, and extension spring 23 can be made to be in stress, until
Sealing plate 24 removes connecting hole 20, so at this time escape pipe 15 is in connected state, the gas in air inlet duct 2 will be by going out
Tracheae 15 is discharged, and the process of gas in air inlet duct 2 discharge will cause and form subnormal ambient in air inlet duct 2, thus be located at into
Cover board 25 on tracheae 4 will be pulled, and when cover board 25 is moved, coupled sealing plate 24 can be driven to be moved
Dynamic, until sealing plate 24 is moved in air inlet pipe 4, air inlet pipe 4 is in connected state at this time, and at this moment extraneous exhaust gas ontology will
Entered in air inlet duct 2 by air inlet pipe 4, forms the process of gas exchanges, after the completion of gas exchanges, close turbofan at this time
13 and starting driving motor 10 can drive ultraviolet light ontology 8 to carry out annular displacement, deodorization is carried out to exhaust gas ontology, this is practical
Novel operating is simple, can carry out gas exchanges to air inlet duct 2 by starting turbofan 13, then start 10 band of driving motor
Dynamic 8 annular displacement of ultraviolet light ontology, carries out deodorization to exhaust gas ontology, exhaust gas ontology will not have stink so that treated, no
It will affect environment, the model of driving motor 10: YFB3-63-355, the model of turbofan 13: DJF.
In the utility model, the top of the bottom of the first mounting disc 6 and the second mounting disc 7 is fixedly connected to deck, and
Card slot is offered positioned at two opposite decks, is installed with the same ultraviolet light ontology 8, shaft positioned at two opposite card slots
5 are equipped with mobile chamber 17, sliding eye are offered in the two sides bottom interior wall of mobile chamber 17, sealing is slided in mobile chamber 17
Dynamic to be connected with pull rod 18, the top of pull rod 18 extends to the top of shaft 5 and is fixedly installed with pulling plate, and pull rod 18 and mobile cavity
The top inner wall sealing of room 17 is slidably connected, and the bottom end of pull rod 18 is fixedly connected with connecting rod, and the both ends of connecting rod extend through two
A sliding eye is simultaneously fixedly connected with the inner wall of the first mounting disc 6, and compressed spring 19, the bottom of compressed spring 19 are arranged on pull rod 18
End is fixedly connected with the bottom of connecting rod, and the top of compressed spring 19 is fixedly connected with the top inner wall of mobile chamber 17, air inlet
The inner wall of pipe 4 and escape pipe 15 is fixedly connected to unidirectional seat 16, and connecting hole 20 is offered on unidirectional seat 16, is slided in connecting hole 20
Dynamic to be connected with gag lever post 22, one end of gag lever post 22 is fixedly connected with sealing plate 24, and the side of sealing plate 24 extends to unidirectional seat
16 outside is simultaneously fixedly connected with cover board 25, and cover board 25 is in contact with the side of unidirectional seat 16, the top inner wall of connecting hole 20 and
The same mounting post 21 is fixedly connected in bottom interior wall, one end of gag lever post 22 is slided through mounting post 21 and with mounting post 21
Connection, is arranged with extension spring 23 on gag lever post 22, the both ends of extension spring 23 respectively with the side of sealing plate 24 and mounting post
21 side is fixedly connected, and starting turbofan 13 first pumps the gas in air inlet duct 2 to conical pipe 14, is now placed in
Sealing plate 24 on escape pipe 15 will be moved under the promotion of air pressure when sealing plate 24 is mobile, and gag lever post can be driven
22 are moved, and extension spring 23 can be made to be in stress, until sealing plate 24 removes connecting hole 20, so at this moment
It waits escape pipe 15 and is in connected state, the gas in air inlet duct 2 will be discharged by escape pipe 15, the gas in air inlet duct 2
The process of discharge will cause and form subnormal ambient in air inlet duct 2, so the cover board 25 being located in air inlet pipe 4 will be pulled,
When cover board 25 is moved, coupled sealing plate 24 can be driven to be moved, until sealing plate 24 is moved to air inlet pipe 4
Interior, air inlet pipe 4 is in connected state at this time, and at this moment extraneous exhaust gas ontology will be entered in air inlet duct 2 by air inlet pipe 4, shape
At the process of gas exchanges, after the completion of gas exchanges, at this time close turbofan 13 and start driving motor 10 can band
Dynamic ultraviolet light ontology 8 carries out annular displacement, carries out deodorization to exhaust gas ontology, and the utility model is easy to operate, by starting turbine
Blower 13 can carry out gas exchanges to air inlet duct 2, then start driving motor 10 and drive the 8 annular displacement of ultraviolet light ontology, right
Exhaust gas ontology carries out deodorization, so that treated, exhaust gas ontology will not have stink, will not influence environment.
Working principle: when in use, starting turbofan 13 first pumps the gas in air inlet duct 2 to conical pipe 14
Interior, the sealing plate 24 being now placed on escape pipe 15 will be moved under the promotion of air pressure when sealing plate 24 is mobile, can
To drive gag lever post 22 to be moved, and extension spring 23 can be made to be in stress, until sealing plate 24 removes connection
Hole 20, so at this time escape pipe 15 is in connected state, the gas in air inlet duct 2 will be discharged by escape pipe 15, into
The process of gas discharge in air drain 2, will cause and form subnormal ambient in air inlet duct 2, so being located at the cover board 25 in air inlet pipe 4
It will be pulled, when cover board 25 is moved, coupled sealing plate 24 can be driven to be moved, until sealing plate 24
It is moved in air inlet pipe 4, air inlet pipe 4 is in connected state at this time, and at this moment extraneous exhaust gas ontology will be entered by air inlet pipe 4
In air inlet duct 2, form the process of gas exchanges, after the completion of gas exchanges, at this time close turbofan 13, air inlet pipe 4 and go out
Extension spring 23 on tracheae 15 will do it reset, drives sealing plate 24 to be moved backward, blocks to connecting hole 20,
So that air inlet duct 2 forms closed chamber, then starts driving motor 10 and the second bevel gear 11 is driven to be rotated, because first
Bevel gear 9 is meshed with the second bevel gear 11, it is possible to drive shaft 5 to be rotated, at this moment ultraviolet light ontology 8 just will do it
Annular displacement carries out deodorization to exhaust gas ontology, so that treated, exhaust gas ontology will not have stink, will not influence environment.
The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not
It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this
Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model
Within enclosing.
Claims (6)
1. a kind of electrodeless ultraviolet light for industrial waste gas processing, including pedestal (1), which is characterized in that the one of the pedestal (1)
Side offers air inlet duct (2), and sealing is fixedly installed with fixed plate (3) in air inlet duct (2), seals on the fixed plate (3) solid
Dingan County is equipped with air inlet pipe (4), and one end of the air inlet pipe (4) extends in air inlet duct (2), in the bottom of the air inlet duct (2)
It is rotatably connected on wall shaft (5), and the top of shaft (5) runs through the top inner wall of air inlet duct (2) and extends to pedestal (1)
The top inner wall sealing of top, the shaft (5) and air inlet duct (2) is rotatablely connected, and sliding sleeve is equipped with first on the shaft (5)
Mounting disc (6) and fixing sleeve are equipped with the second mounting disc (7), and the first mounting disc (6) is located at the top of the second mounting disc (7) and equal
In air inlet duct (2), it is fixedly installed with driving motor (10) at the top of the pedestal (1), and the output of driving motor (10)
It is fixedly installed on axis the second bevel gear (11), and fixing sleeve is equipped with the first bevel gear (9) in shaft (5), first umbrella tooth
Wheel (9) is located at the top of pedestal (1), and the first bevel gear (9) is meshed with the second bevel gear (11), in the air inlet duct (2)
It is fixedly installed with installing pipe (12), and one end of installing pipe (12) is fixedly connected with conical pipe (14), the one of the air inlet duct (2)
Being sealedly and fixedly connected on the inner wall of side has escape pipe (15), one end of the escape pipe (15) extend in conical pipe (14) and with cone
The inner wall of shape pipe (14) is sealedly and fixedly connected, and the other end of escape pipe (15) extends to the outside of pedestal (1), the installing pipe
(12) turbofan (13) are fixedly installed in.
2. a kind of electrodeless ultraviolet light for industrial waste gas processing according to claim 1, which is characterized in that described first
It is fixedly connected to deck at the top of the bottom of mounting disc (6) and the second mounting disc (7), and is located at two opposite decks and opens
Equipped with card slot, the same ultraviolet light ontology (8) is installed with positioned at two opposite card slots.
3. a kind of electrodeless ultraviolet light for industrial waste gas processing according to claim 1, which is characterized in that the shaft
(5) it is equipped with mobile chamber (17), offers sliding eye, the movement in the two sides bottom interior wall of the mobile chamber (17)
Sealing slidably connects pull rod (18) in chamber (17), and the top of the pull rod (18) extends to top and the fixation of shaft (5)
Pulling plate is installed, and pull rod (18) and the top inner wall sealing of mobile chamber (17) are slidably connected.
4. a kind of electrodeless ultraviolet light for industrial waste gas processing according to claim 3, which is characterized in that the pull rod
(18) bottom end is fixedly connected with connecting rod, and the both ends of connecting rod extend through two sliding eyes and interior with the first mounting disc (6)
Wall is fixedly connected, and is arranged with compressed spring (19) on the pull rod (18), the bottom end of the compressed spring (19) and connecting rod
Bottom is fixedly connected, and the top of the compressed spring (19) is fixedly connected with the top inner wall of mobile chamber (17).
5. a kind of electrodeless ultraviolet light for industrial waste gas processing according to claim 1, which is characterized in that the air inlet
The inner wall of pipe (4) and escape pipe (15) is fixedly connected to unidirectional seat (16), offers connecting hole on the unidirectional seat (16)
(20), it is slidably connected gag lever post (22) in the connecting hole (20), one end of the gag lever post (22) is fixedly connected with sealing
The side of plate (24), the sealing plate (24) extends to the outside of unidirectional seat (16) and is fixedly connected with cover board (25), the lid
Plate (25) is in contact with the side of unidirectional seat (16).
6. a kind of electrodeless ultraviolet light for industrial waste gas processing according to claim 5, which is characterized in that the connection
It is fixedly connected in the top inner wall and bottom interior wall in hole (20) the same mounting post (21), one end of the gag lever post (22) is passed through
It wears mounting post (21) and is slidably connected with mounting post (21), be arranged with extension spring (23), the drawing on the gag lever post (22)
The both ends for stretching spring (23) are fixedly connected with the side of the side of sealing plate (24) and mounting post (21) respectively.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821670131.0U CN208990523U (en) | 2018-10-16 | 2018-10-16 | A kind of electrodeless ultraviolet light for industrial waste gas processing |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821670131.0U CN208990523U (en) | 2018-10-16 | 2018-10-16 | A kind of electrodeless ultraviolet light for industrial waste gas processing |
Publications (1)
Publication Number | Publication Date |
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CN208990523U true CN208990523U (en) | 2019-06-18 |
Family
ID=66802714
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201821670131.0U Active CN208990523U (en) | 2018-10-16 | 2018-10-16 | A kind of electrodeless ultraviolet light for industrial waste gas processing |
Country Status (1)
Country | Link |
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CN (1) | CN208990523U (en) |
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2018
- 2018-10-16 CN CN201821670131.0U patent/CN208990523U/en active Active
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