A kind of depurator that can effectively improve air purification efficiency
Technical field
The present invention relates to environmental technology field, more particularly, to one kind can effectively improve air cleaning
The depurator of efficiency.
Background technology
Air purifier is widely used in multiple occasion such as factory, power plant, hotel, air cleaning
Device typically makes waste gas and liquid close contact, using inertial collision and other works of water droplet and granule
With arrested particles, or granule is made to increase, to reach the dedusting dissolving in liquid, sulphur removal, to remove
Oil etc., reaches the effect making air cleaning.In the past general air purifier, such as cartridge type fiber crops stone
Water film dust removal device, water consumption is big, and exhaust-gas treatment amount is few, and has water process dead angle, leads
The waste gas containing flue dust is caused to pass through at dead angle, the effect on driving birds is not good of smoke abatement, and effect is preferably wet
Formula air purifier big energy-consuming, high cost, floor space are big.
Accordingly, it is desirable to provide a kind of new technical scheme solves above-mentioned technical problem.
Content of the invention
It is an object of the invention to provide a kind of can effectively the carrying of effectively solving above-mentioned technical problem
The depurator of high air purification efficiency.
In order to solve above-mentioned technical problem, the present invention adopts the following technical scheme that:
A kind of depurator that can effectively improve air purification efficiency, described can effectively improve sky
The depurator of gas purification efficiency includes base, the collection device above described base, is located at
Framework above described collection device, be located at air intake installation on the left of described framework, be located at described
Retracting device on the right side of framework, it is located at the internal retaining device of described framework, positioned at described baffle plate
Defecator above device, it is located at the pouring device above described defecator and is arranged at institute
State the air-out apparatus in framework, described framework is provided with positioned at first through hole at right surface, position
The first fixed block within framework, be located at the second fixed block below described first fixed block and
Positioned at the second through hole at left surface, described collection device includes the first collecting box, positioned at described
The second collecting box on the left of first collecting box and the closing block above described second collecting box,
Described air intake installation includes air inlet pipe and is arranged at blower fan in described air inlet pipe, described recovery dress
Put including the first recovery tube, the second recovery tube below described first recovery tube and be arranged at
The first air valve on described first recovery tube, described retaining device includes the first bridle catcher, is located at
Support bar below described first bridle catcher, be located at the first drainage screen on the left of described support bar and
The first swash plate above described first bridle catcher, described defecator includes rectangular block, position
The second drainage screen on the right side of the described rectangular block and first holding of being located on described second drainage screen
Hold bar, described pouring device includes upper end, the bottom below described upper end, position
The first accepting groove within described upper end, be located at passage within described bottom and with institute
State some circular holes that passage communicates, described air-out apparatus include the first escape pipe, are located at described frame
The second escape pipe above body and be arranged at the second air valve on described second escape pipe, described frame
The upper surface of body is additionally provided with third through-hole.
Described first collecting box is in cylinder, the lower surface of described first collecting box and described base
Upper surface, the upper surface concave downward of described first collecting box forms the first host cavity.
Described second collecting box is in cuboid, the lower surface of described second collecting box and described base
Upper surface, the upper surface concave downward of described second collecting box forms the second host cavity,
Described closing block is in rectangular-shaped, and the lower surface of described closing block is upper with described second collecting box
Surface is fixedly connected, and the upper surface of described closing block is contacted with the lower surface of described framework.
The right-hand member of described air inlet pipe is directed at described second through hole and the left surface with described framework is consolidated
Fixed connection.
Described first recovery tube is oblique, the left end be aligned described first of described first recovery tube
Through hole and being fixedly connected with the right surface of described framework, described second recovery tube is in vertical shape.
Described first bridle catcher is L-shaped, and the right-hand member of described first bridle catcher is interior with described framework
Surface is fixedly connected, described first bridle catcher be located at described first through hole lower section, described first
The left end of bridle catcher is in vertical shape.
Described first drainage screen is in that upper left lower right tilts, the left end of described first drainage screen
It is fixedly connected with the inner surface of described framework, the right-hand member of described first drainage screen and described support bar
Left surface be fixedly connected.
The upper surface of the lower surface of described bottom and described rectangular block, described passage upper
End is communicated with described first accepting groove, and the left end of described circular hole is communicated with described passage, described circle
The right-hand member in hole is communicated with the inside of described framework.
The upper surface of described support bar is oblique, the lower surface of described support bar and described framework
Inner surface be fixedly connected, the lower surface of the upper surface of described support bar and described first bridle catcher
It is fixedly connected, described rectangular block is in cuboid, described rectangular block horizontal positioned, described rectangular block
Left surface be fixedly connected with the inner surface of described framework, positioned at a left side for second fixed block in left side
Surface is fixedly connected with the right surface of described rectangular block, and described second drainage screen is in cuboid, institute
State the second drainage screen horizontal positioned, the left surface of described second drainage screen and the right side of described rectangular block
Surface contacts, and the right surface of described second drainage screen is contacted with the inner surface of described framework, described
The lower surface of the second drainage screen and the upper surface of described second fixed block.Described first gripping
Bar is L-shaped, and the upper surface of the lower surface of described first holding rod and described second drainage screen is fixed
Connect, the upper end of described first escape pipe is directed at described third through-hole and upper interior with described framework
Surface is fixedly connected.The third through-hole described in lower end aligned of described second escape pipe and with described frame
The upper surface of body is fixedly connected, and described first escape pipe, third through-hole and the second escape pipe are constituted
One outlet passageway, described first recovery tube is integrally formed with described second recovery tube, and described second
Recovery tube is connected with the upper surface of described first collecting box.
After technique scheme, the invention has the advantages that:
The depurator structure that the present invention can effectively improve air purification efficiency is simple, easy to use,
Air can be carried out sufficiently cleaned up, granule larger in the air volume can be received simultaneously
Collection, preventing it to be scattering into the external world affects environment further, can utilize the principle of hydraulic pressure simultaneously,
Water is fully covered so that it is more preferable to the clean-up effect of air on drainage screen, with
When make expellant gas humidity suitable.
Brief description
Below in conjunction with the accompanying drawings the present invention can be effectively improved with the depurator of air purification efficiency
Specific embodiment is described further:
Fig. 1 can effectively improve the structural representation of the depurator of air purification efficiency for the present invention
Figure;
Specific embodiment
As shown in figure 1, the depurator that the present invention can effectively improve air purification efficiency includes bottom
Seat 1, it is located at the collection device 2 of described base 1 top, is located above described collection device 2
Framework 3, be located at the air intake installation 5 in described framework 3 left side, be located on the right side of described framework 3
Retracting device 6, be located at the internal retaining device 7 of described framework 3, be located at described baffle plate and fill
Put the defecator 8 of 7 tops, be located at the pouring device 4 of described defecator 8 top and set
It is placed in the air-out apparatus 9 in described framework 3.
As shown in figure 1, described base 1 is in cuboid, described base 1 horizontal positioned, described
Base 1 is provided with the first support column 11, and described first support column 11 is provided with two and difference position
In the left and right sides, described first support column 11 is in cuboid, under described first support column 11
Surface is fixedly connected with the upper surface of described base 1, the upper surface of described first support column 11
It is fixedly connected with the lower surface of described framework 3.
As shown in figure 1, described framework 3 is in hollow cuboid, described framework 3 is vertically placed,
Described framework 3 is provided with positioned at first through hole 31 at right surface, is located within framework 3
First fixed block 32, the second fixed block 34 being located at described first fixed block 32 lower section and position
In the second through hole 33 at left surface.Described first through hole 31 is in cylindrical shape, and described second
Through hole 33 is in cylindrical shape.Described first fixed block 32 is in cuboid, described first fixed block
32 right surface is fixedly connected with the inner surface of described framework 3.Described second fixed block 34 sets
Have two and respectively be located at the left and right sides, the right surface of the second fixed block 34 positioned at right side with
The inner surface of described framework 3 is fixedly connected.The upper surface of described framework 3 is additionally provided with third through-hole,
Described third through-hole is in cylindrical shape, and described third through-hole makes the inside of described framework 3 with outward
Portion space communicates.
As shown in figure 1, described collection device 2 includes the first collecting box 21, is located at described first
Second collecting box 22 in collecting box 21 left side and the envelope being located at described second collecting box 22 top
Close block 23.Described first collecting box 21 is in cylinder, the following table of described first collecting box 21
The upper surface of face and described base 1, the upper table of described first collecting box 21 faces down recessed
Fall into and form the first host cavity, described first host cavity is in cylindrical shape.Described second collecting box
22 is in cuboid, and the lower surface of described second collecting box 22 and the upper surface of described base 1 connect
Touch, the upper surface concave downward of described second collecting box 22 forms the second host cavity, described the
Two host cavities are in rectangular-shaped.Described closing block 23 is in rectangular-shaped, and described closing block 23 sets
There are two and be located at the left and right sides, the lower surface of described closing block 23 and described second receipts respectively
The upper surface of header 22 is fixedly connected, the upper surface of described closing block 23 and described framework 3
Lower surface contacts.
As shown in figure 1, described air intake installation 5 includes air inlet pipe 51 and is arranged at described air inlet pipe
Blower fan 52 on 51.The right-hand member of described air inlet pipe 51 be aligned described second through hole 33 and with institute
The left surface stating framework 3 is fixedly connected so that the inside of described framework 3 and described air inlet pipe
51 inside communicates.Described blower fan 52 is arranged in described air inlet pipe 51, for by outside
Air is drawn in described air inlet pipe 51.
As shown in figure 1, described retracting device 6 includes the first recovery tube 61, is located at described first
Second recovery tube 63 of recovery tube 61 lower section and be arranged on described first recovery tube 61 the
One air valve 62.Described first recovery tube 61 is integrally formed with described second recovery tube 62, institute
State the first recovery tube 61 obliquely, the left end be aligned described first of described first recovery tube 61
The through hole 31 and right surface with described framework 3 is fixedly connected so that described first recovery tube 61
Communicate with the inside of described framework 3.Described second recovery tube 63 is in vertical shape.Described first
Air valve 62 is arranged on described first recovery tube 61.
As shown in figure 1, described retaining device 7 includes the first bridle catcher 71, is located at described first
The support bar 72 of bridle catcher 71 lower section, the first drainage screen positioned at described support bar 72 left side
73 and the first swash plate 74 of being located at described first bridle catcher 71 top.Described first bridle catcher
71 is L-shaped, and the right-hand member of described first bridle catcher 71 is fixing with the inner surface of described framework 3 even
Connect, described first bridle catcher 71 is located at the lower section of described first through hole 31, described first recovery
The left end of bar 71 is in vertical shape.Described support bar 72 is in vertical shape, described support bar 72
Upper surface is oblique, and the lower surface of described support bar 72 is solid with the inner surface of described framework 3
Fixed connect, the lower surface of the upper surface of described support bar 72 and described first bridle catcher 71 is fixed
Connect.Described first drainage screen 73 is oblique, and described first drainage screen 73 is in upper left
Lower right tilts, and the left end of described first drainage screen 73 is fixed with the inner surface of described framework 3
Connect, the right-hand member of described first drainage screen 73 is fixedly connected with the left surface of described support bar 72.
Described first swash plate 74 is oblique, and described first swash plate 74 is in that lower left upper right side tilts,
The right-hand member of described first swash plate 74 is fixedly connected with the inner surface of described framework 3 and is located at described
The top of first through hole 31, described first swash plate 74 is so that dust collects enters into
In described first recovery tube 61.
As shown in figure 1, described defecator 8 includes rectangular block 82, is located at described rectangular block 82
Second drainage screen 81 on right side and the first holding rod 83 being located on described second drainage screen 81.
Described rectangular block 82 is in cuboid, described rectangular block 82 horizontal positioned, described rectangular block 82
Left surface be fixedly connected with the inner surface of described framework 3, positioned at second fixed block in left side
34 left surface is fixedly connected with the right surface of described rectangular block 82.Described second drainage screen 81
In cuboid, described second drainage screen 81 horizontal positioned, the left-handed watch of described second drainage screen 81
Face is contacted with the right surface of described rectangular block 82, the right surface of described second drainage screen 81 and institute
State the inner surface contact of framework 3, the lower surface of described second drainage screen 81 is solid with described second
Determine the upper surface of block 34.Described first holding rod 83 is L-shaped, described first holding rod
83 lower surface is fixedly connected with the upper surface of described second drainage screen 81.
As shown in figure 1, described pouring device 4 includes upper end 41, is located at described upper end 41
The bottom 43 of lower section, it is located at the first internal accepting groove 42 of described upper end 41, positioned at institute
State the passage 44 within bottom 43 and some circular holes 45 communicating with described passage 44.Institute
Stating upper end 41 is in cuboid, and the upper surface concave downward of described upper end 41 forms the first receipts
Tank 42, described first accepting groove 42 is in rectangular-shaped.Described bottom 43 is in cuboid,
The lower end of described bottom 43 passes through the upper surface of described framework 3 to extend to described framework 3
The upper surface of inside, the lower surface of described bottom 43 and described rectangular block 82.Described
Passage 44 is in rectangular-shaped, and the upper end of described passage 44 is communicated with described first accepting groove 42.
Described circular hole 45 is in cylindrical shape, and the left end of described circular hole 45 is communicated with described passage 44,
The right-hand member of described circular hole 45 is communicated with the inside of described framework 3.When water is full of described passage 44
When middle, because upper and lower hydraulic pressure is different, underlying hydraulic pressure larger so that by lower section
The water of circular hole 45 sprays farther out, and the water being sprayed by the circular hole 45 of top is nearer, enabling
More comprehensively cover described second drainage screen 81.
As shown in figure 1, described air-out apparatus 9 include the first escape pipe 93, are located at described framework
3 top the second escape pipe 92 and be arranged at the second air valve on described second escape pipe 92
94.The upper end of described first escape pipe 93 be aligned described third through-hole and with described framework 3
Upper inner surface is fixedly connected.The third through-hole described in lower end aligned of described second escape pipe 92 and
It is fixedly connected with the upper surface of described framework 3.Described first escape pipe 93, third through-hole and
Second escape pipe 92 constitutes an outlet passageway 91 so that the air within framework 3 can be discharged.
Described second air valve 94 is arranged on described second escape pipe 92, for controlling the discharge of gas.
Described air-out apparatus 9 include the second holding rod 95, and described second holding rod 95 is L-shaped, institute
The one end stating the second holding rod 95 is fixedly connected with the upper wall of described framework 3, so that by framework
3 upper wall is extracted.
As shown in figure 1, the depurator that the described present invention can effectively improve air purification efficiency makes
Used time, start blower fan 52 first so that extraneous air is drawn in air inlet pipe 51, Ran Hou
Place water in first accepting groove 42 so as to be full of in passage 44, and spray from circular hole 45,
So that the water energy spraying enough covers on the second drainage screen 81, form water membrane.From described
The air that air inlet pipe 51 enters enters into retaining device 7 after the filtration of the first drainage screen 73
Top, the wherein larger granule of volume enters into the second receipts after being filtered by the first drainage screen 73
In second host cavity of header 22.Then into retaining device 7 top air through the
Two drainage screen 81 enters into top after filtering, the solid granulates being wherein filtered pass through first
First is entered into by after the first recovery tube 61, the second recovery tube 63 after bridle catcher 71 landing
In first host cavity of collecting box 21.The air entering into the first drainage screen 81 top is through going out
Device of air 9 is discharged, and described first holding rod 83 can be used for taking out the first drainage screen 81,
To be carried out.So far, the present invention can effectively improve the depurator of air purification efficiency and make
Described with process.
The above, the only specific embodiment of the present invention, but protection scope of the present invention is simultaneously
Be not limited to this, any those skilled in the art the invention discloses technical scope
Interior, change or replacement can be readily occurred in, all should be included within the scope of the present invention.Cause
This, protection scope of the present invention should be defined by described scope of the claims.