CN207253891U - A kind of multistage filtering cell system that can fully recycle glass powder - Google Patents
A kind of multistage filtering cell system that can fully recycle glass powder Download PDFInfo
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- CN207253891U CN207253891U CN201720473329.9U CN201720473329U CN207253891U CN 207253891 U CN207253891 U CN 207253891U CN 201720473329 U CN201720473329 U CN 201720473329U CN 207253891 U CN207253891 U CN 207253891U
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- filtration pond
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Abstract
The utility model discloses a kind of multistage filtering cell system that can fully recycle glass powder, including by-pass filtration pond, secondary filtration pond, three-stage filtration pond, level Four filtering ponds, intake chamber and rhone, the by-pass filtration pond, secondary filtration pond, three-stage filtration pond and level Four filtering ponds are arranged successively along water (flow) direction, the intake chamber is arranged on by-pass filtration pond side with rhone, and intake chamber connection by-pass filtration pond is used to discharge into the sewage with glass powder in by-pass filtration pond;It is provided with multistage filtering pond in the utility model, and can effectively prevent the caking of glass powder by adding aluminium chloride causes glass powder to be condensed in bottom of pond, forms loose glass powder;And by setting mud discharging mouth to drain the glass powder of bottom of pond, glass powder is set to concentrate at mud discharging mouth, the powder of bottom of pond fully can be drained into rhone when mud discharging mouth is opened, then level Four filtering ponds will be drained with the glass powder in rhone with water by sludge pump and draining pump.
Description
Technical field
Filtration art is the utility model is related to, more particularly, to a kind of multistage filtering that can fully recycle glass powder
Cell system.
Background technology
During glass production, glass is cut, is drilled, is carved when process, can produce glass
Powder, while have water during above-mentioned technique carries out and rinse glass always, therefore cut, drilled, carved
Process and the glass powder that produces can flow away to form the sewage with glass powder with water, but this sewage cannot be straight
Run in into river, it is necessary to filtered to it, the glass powder in sewage is filtered and collected, and the mistake of existing glass powder
Filter tank is by being to be separated from water glass powder by multistage filtering, can be every by glass powder but during filtering
Precipitation accumulates in filtering ponds bottom and can condense to form the larger sediment of hardness in a filtering ponds, so uses one in filtering ponds
After the section time, just need cleanup crew to take considerable time and remove the sediment of filtering ponds bottom of pond with manpower.
Utility model content
In view of the deficiencies of the prior art, the purpose of this utility model is that one kind can prevent glass powder from luming and by dirt
Water multistage filtering cell system separated with glass powder.
To achieve the above object, scheme provided by the utility model is:A kind of multistage mistake that can fully recycle glass powder
Filter tank system, including by-pass filtration pond, secondary filtration pond, three-stage filtration pond, level Four filtering ponds, intake chamber and rhone, it is described
By-pass filtration pond, secondary filtration pond, three-stage filtration pond and level Four filtering ponds are arranged successively along water (flow) direction, the intake chamber and row
Sink is arranged on by-pass filtration pond side, and intake chamber connection by-pass filtration pond is used to the sewage with glass powder discharging into level-one
In filtering ponds;
At least one blender is equipped with the by-pass filtration pond to be used for sewage after by-pass filtration pond addition aluminium chloride
Being thoroughly mixed with aluminium chloride prevents glass powder from luming;The secondary filtration pond in three-stage filtration pond with being both provided with polylith
Baffle, the baffle precipitate glass powder along water (flow) direction arrangement for slowing down water velocity;The by-pass filtration pond, two level
Being provided with drainage mouth between filtering ponds, three-stage filtration pond and level Four filtering ponds makes sewage flow to level Four mistake from by-pass filtration pond successively
Filter tank, the filter screen that drainage mouth is covered on the drainage mouth are used for impurity in filter sewage, and the filter screen cross section is in arc
Shape structure is to reduce the abrasion of filter screen;By-pass filtration pond, secondary filtration pond and the bottom of pond in three-stage filtration pond form funnel-form knot
Structure, and it is used for communicated drainage groove in being provided with a mud discharging mouth on the side wall of by-pass filtration pond, secondary filtration pond with three-stage filtration pond
With the downside of infundibulate bottom of pond, the lower edge of the mud discharging mouth is overlapped with bottom surface, and is provided with gate in mud discharging mouth and is used for
Control the opening and closing of mud discharging mouth;
The rhone is arranged on the side in by-pass filtration pond and extends along water (flow) direction, and the bottom surface of rhone is along current side
To tilting down the end that makes glass powder be moved to rhone, and it is provided with rhone multiple along water (flow) direction arrangement
Filter screen.
Further, by-pass filtration pond and secondary filtration pond, secondary filtration pond and three-stage filtration pond, three-stage filtration pond and four
The drainage mouth of level filtering ponds is located in same level.
Further, multistage filtering cell system further includes sludge pump and is respectively used to draining pump by level Four filtering ponds and draining
Glass powder in groove is drained with water.
This programme has the beneficial effect that:Glass powder can be separated from sewage, multistage filtering is provided with this programme
Pond, and glass powder is deposited in the bottom of pond of filtering ponds by precipitation of the sewage in filtering ponds, and can by adding aluminium chloride
Effectively prevent the caking of glass powder and cause glass powder to be condensed in bottom of pond, form loose glass powder;And by setting
Put mud discharging mouth to drain the glass powder of bottom of pond, wherein the bottom of pond of filtering ponds forms funnel-shaped structure, concentrates on glass powder
At mud discharging mouth, the powder of bottom of pond fully can be drained into rhone when mud discharging mouth is opened, then pass through sludge pump and draining pump
Level Four filtering ponds will be drained with the glass powder in rhone with water;It is used for also on drainage mouth covered with filter screen by dirt
Contaminant filter in water in addition to glass powder, and filter screen is arc-shaped, it is in divergent shape when passing through filter screen that can make sewage, except
Abrasion of the glass powder to filter screen is reduced while filter area can be increased.
Brief description of the drawings
Fig. 1 is the front view of the utility model.
Fig. 2 is the top view of the utility model.
Fig. 3 is the side view of the filtering ponds of the utility model.
Fig. 4 is the side view of the rhone of the utility model.
Wherein, 1 is intake chamber, and 21 be by-pass filtration pond, and 211 be blender, and 22 be secondary filtration pond, and 23 be three-stage filtration
Pond, 24 be level Four filtering ponds, and 25 be baffle, and 26 be drainage mouth, and 27 be mud discharging mouth, and 3 be filtering ponds, and 4 be rhone, and 5 be gate,
61 be sludge pump, and 62 be draining pump.
Embodiment
With reference to specific embodiment, the utility model is described in further detail:
Referring to shown in attached drawing 1 to attached drawing 4, a kind of multistage filtering cell system that can fully recycle glass powder, including level-one
Filtering ponds 21, secondary filtration pond 22, three-stage filtration pond 23, level Four filtering ponds 24, intake chamber 1 and rhone 4, by-pass filtration pond
21st, secondary filtration pond 22, three-stage filtration pond 23 are arranged successively with level Four filtering ponds 24 along water (flow) direction, intake chamber 1 and rhone 2
Arranged on 21 side of by-pass filtration pond, and intake chamber 1 connects by-pass filtration pond 21 and is used to the sewage with glass powder discharging into one
In level filtering ponds 21;Specifically, by-pass filtration pond 21, secondary filtration pond 22, three-stage filtration pond 23 and level Four filtering ponds 24 are
The length direction of rectangular parallelepiped structure and each filtering ponds is water (flow) direction, and by-pass filtration pond 21, secondary filtration pond 22, three-level mistake
Filter tank 23 is arranged successively with level Four filtering ponds 24 along before and after water (flow) direction, the size all same of each filtering ponds.
At least one blender 211 is equipped with by-pass filtration pond 21 to be used for dirt after the addition of by-pass filtration pond 21 aluminium chloride
Water is thoroughly mixed with aluminium chloride prevents glass powder from luming;Secondary filtration pond 22 is more with being both provided with three-stage filtration pond 22
Block baffle 25, baffle 25 precipitate glass powder along water (flow) direction arrangement for slowing down water velocity(25 horizontal direction of baffle is set
Put and extend along the width of filtering ponds, and the length of baffle 25 is less than the width of filtering ponds);By-pass filtration pond 21, two level
Drainage mouth 26 is provided between filtering ponds 22, three-stage filtration pond 23 and level Four filtering ponds 24 makes sewage successively from by-pass filtration pond 21
It flow to level Four filtering ponds 26(Width of the drainage mouth 26 along filtering ponds(That is horizontal direction)Extension), filter is covered on drainage mouth 26
The filter screen 3 at the mouth of a river 26 is used for the impurity in filter sewage, and the arc-shaped structure in 3 cross section of filter screen is to reduce the mill of filter screen 3
Damage(The length direction of the filter screen 3 along drainage mouth 26(That is horizontal direction)Extension);By-pass filtration pond 21, secondary filtration pond 22 with
The bottom of pond in three-stage filtration pond 23 forms funnel-shaped structure, and in by-pass filtration pond 21, secondary filtration pond 22 and three-stage filtration pond 23
Side wall on be provided with the downside that a mud discharging mouth 27 is used for communicated drainage groove 4 and infundibulate bottom of pond, the lower edge of mud discharging mouth 27
Overlapped with bottom surface, and the opening and closing that gate 5 is used to control mud discharging mouth 27 is provided with mud discharging mouth 27;Wherein intake chamber 1 is in level-one
The height and position of the opening of filtering ponds 21 is higher than the height and position of drainage mouth 26.
Rhone 4 is arranged on the side in by-pass filtration pond 21 and extends along water (flow) direction, and the bottom surface of rhone 4 is along current side
To tilting down the end that makes glass powder be moved to rhone 4, and it is provided with rhone 4 and multiple arranges along water (flow) direction
Filter screen 3(The filter screen 3 is vertically arranged and is vertically extended), enter rhone 4 for further filtering
The impurity of interior sewage.
Wherein, by-pass filtration pond 21 and secondary filtration pond 22, secondary filtration pond 22 and three-stage filtration pond 23, three-stage filtration pond
23 are located in same level with the drainage mouths 26 of level Four filtering ponds 24;The multistage filtering cell system of the present embodiment further includes spoil disposal
Pump 51 is respectively used to drain level Four filtering ponds 24 and the glass powder in rhone 4 with water with draining pump 52.
The course of work of the present embodiment is:
The sewage with glass powder is discharged into by-pass filtration pond 21 by intake chamber 1 first, while to by-pass filtration
Aluminium chloride is launched in pond 21, and is started blender 211 and be sufficiently mixed sewage and aluminium chloride;It is discharged into by-pass filtration pond 21
Sewage increases, and sewage can enter secondary filtration pond 22, three-stage filtration pond 23 and level Four filtering ponds 24 from by-pass filtration pond 21 successively,
Wherein when sewage flows through secondary filtration pond 22 with three-stage filtration pond 23, baffle 25 can reduce the speed of current in order to glass dust
The precipitation at end;After sewage being filled after by-pass filtration pond 21, secondary filtration pond 22, three-stage filtration pond 23 with level Four filtering ponds 24,
Stop being discharged into for sewage;
After a period of time, glass powder precipitation finishes, and when being gathered in mud discharging mouth 27, is first turned on by-pass filtration pond 21
Gate 5 open the mud discharging mouth 27 in by-pass filtration pond 21, the glass powder of bottom of pond is just discharged into rapidly in rhone 4 at this time, glass
Glass powder is moved to the end of rhone 4 by the incline structure of 4 bottom surface of rhone after entering in rhone 4, treat by-pass filtration
After the glass powder of 21 bottom of pond of pond almost drains, the gate 5 in by-pass filtration pond 21 is closed;
The glass powder in secondary filtration pond 22 and three-stage filtration pond 23 is drained into rhone 4 successively according to the method described above,
Then first level Four filtering ponds 24 and the water in rhone 4 are drained using draining pump 52, then is filtered level Four by sludge pump 51
Drain with the glass powder in rhone 4 in pond 24.
The embodiment of the above is only the preferred embodiment of the utility model, and any form is not done to the utility model
On limitation.Any those skilled in the art, in the case where not departing from technical solutions of the utility model ambit, in utilization
The technology contents for stating announcement make technical solutions of the utility model more possible variations and retouching, or modification is this practicality
New equivalent embodiment.Therefore all contents without departing from technical solutions of the utility model, the thinking according to the utility model are made
Equivalent equivalence changes, should all be covered by the scope of protection of the utility model.
Claims (3)
- A kind of 1. multistage filtering cell system that can fully recycle glass powder, it is characterised in that:Including by-pass filtration pond(21), two Level filtering ponds(22), three-stage filtration pond(23), level Four filtering ponds(24), intake chamber(1)With rhone(4), the by-pass filtration Pond(21), secondary filtration pond(22), three-stage filtration pond(23)With level Four filtering ponds(24)Arrange successively along water (flow) direction, it is described into Sink(1)With rhone(4)Arranged on by-pass filtration pond(21)Side, and intake chamber(1)Connect by-pass filtration pond(21)For inciting somebody to action Sewage with glass powder discharges into by-pass filtration pond(21)It is interior;The by-pass filtration pond(21)It is interior to be equipped with least one blender (211)For in by-pass filtration pond(21)Being thoroughly mixed sewage and aluminium chloride after addition aluminium chloride prevents glass powder knot Block;The secondary filtration pond(22)With three-stage filtration pond(23)Inside it is both provided with more block baffles(25), the baffle(25)Along water The arrangement of stream direction precipitates glass powder for slowing down water velocity;The by-pass filtration pond(21), secondary filtration pond(22), three Level filtering ponds(23)With level Four filtering ponds(24)Between be provided with drainage mouth(26)Make sewage successively from by-pass filtration pond(21)Stream To level Four filtering ponds(24), the drainage mouth(26)Upper covering drainage mouth(26)Filter screen(3)For miscellaneous in filter sewage Matter, the filter screen(3)The arc-shaped structure in cross section is to reduce filter screen(3)Abrasion;By-pass filtration pond(21), secondary filtration Pond(22)With three-stage filtration pond(23)Bottom of pond form funnel-shaped structure, and in by-pass filtration pond(21), secondary filtration pond(22) With three-stage filtration pond(23)Side wall on be provided with a mud discharging mouth(27)For communicated drainage groove(4)With under infundibulate bottom of pond Side, the mud discharging mouth(27)Lower edge overlapped with bottom surface, and in mud discharging mouth(27)Inside it is provided with gate(5)For the row of control Mud mouth(27)Opening and closing;The rhone(4)Arranged on by-pass filtration pond(21)Side and extend along water (flow) direction, and rhone (4)Bottom surface tilted down along water (flow) direction and glass powder is moved to rhone(4)End, and in rhone(4)Inside set It is equipped with multiple filter screens arranged along water (flow) direction(3).
- A kind of 2. multistage filtering cell system that can fully recycle glass powder according to claim 1, it is characterised in that:One Level filtering ponds(21)With secondary filtration pond(22), secondary filtration pond(22)With three-stage filtration pond(23), three-stage filtration pond(23)With Level Four filtering ponds(24)Drainage mouth(26)In same level.
- A kind of 3. multistage filtering cell system that can fully recycle glass powder according to claim 1, it is characterised in that:It is more Level filtering cell system further includes sludge pump(61)With draining pump(62)It is respectively used to level Four filtering ponds(24)With rhone(4)It is interior Glass powder drain with water.
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CN201720473329.9U CN207253891U (en) | 2017-04-29 | 2017-04-29 | A kind of multistage filtering cell system that can fully recycle glass powder |
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CN201720473329.9U CN207253891U (en) | 2017-04-29 | 2017-04-29 | A kind of multistage filtering cell system that can fully recycle glass powder |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN112385573A (en) * | 2020-08-23 | 2021-02-23 | 毛金明 | Laying duck farming systems |
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2017
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112385573A (en) * | 2020-08-23 | 2021-02-23 | 毛金明 | Laying duck farming systems |
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