CN208071533U - A kind of high-efficiency ferrimanganic removing filter plant - Google Patents
A kind of high-efficiency ferrimanganic removing filter plant Download PDFInfo
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- CN208071533U CN208071533U CN201820097041.0U CN201820097041U CN208071533U CN 208071533 U CN208071533 U CN 208071533U CN 201820097041 U CN201820097041 U CN 201820097041U CN 208071533 U CN208071533 U CN 208071533U
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Abstract
The utility model discloses a kind of high-efficiency ferrimanganic removing filter plants comprising tank body, air and liquid mixer, water inlet pipe, immersible pump, upper hose, aerating pump, outlet pipe, blow-off pipe, wind turbine.Underground water is pumped to air and liquid mixer by high-efficiency ferrimanganic removing filter plant provided by the utility model, immersible pump, meanwhile, oxygen is pumped to air and liquid mixer and tank body by aerating pump.In air and liquid mixer, the Fe and Mn in raw water starts to aoxidize, and then raw water is transported in tank body.Oxidation reaction further occurs for the oxygen in it contains into the raw water in the tank body Fe and Mn and tank body.When raw water flows through filtrate, it is in contact oxidation reaction and filter material surface biological chemistry action and Physical entrapment suction-operated in filtering layer, makes ferromanganese ion precipitation removal in raw water.The high-efficiency ferrimanganic removing filter plant structure novel, filter efficiency is high, and the effect for removing ferromanganese ion is favourable.
Description
Technical field
The utility model is related to a kind of water treatment facilities, and in particular to a kind of high-efficiency ferrimanganic removing filter plant.
Background technology
Manganese in underground water also often exists in the form of bivalent manganese, and bivalent manganese is very slow by the speed of oxygen in water
Slowly, so generally water is not made to become muddy rapidly, but it is generated after precipitating, and the coloration of water can be made to increase, colorability is higher than iron
Go out several times, it is very strong to the pollution capacity of clothing and sanitary fixture, when the content of manganese is more than 0.3mg/L, water can be made to generate peculiar smell.
It when iron manganese content in water is excessive, can not only make troubles to life, many problems can be also brought to industrial production.
For example, ferrimanganic is one of the ingredient for generating incrustation scale in boiler feed water.In cooling water, iron is attached on heating tube wall, meeting
The heat transfer coefficient of tube wall is reduced, or even cooling water pipe can be blocked.In addition, ferrimanganic bacterium, which constantly grows, can also accelerate metallic conduit
Corrosion.
When the content of iron and manganese in underground raw water is more than sanitary standard for drinking water, the essential step of water purification is exactly to remove water
In metal ion, reach using standard, long-term drinking iron content, the high water containing manganese are unfavorable to human body.Existing removal iron,
The processing equipment of manganese, mostly uses outdoor aeration, and filter precipitates water storage, takes up a large area, utilization rate of equipment and installations is low, needs list
Solely filter back washing is cleared up.
The Chinese utility model patent of Publication No. CN102040295A discloses a kind of water oxygen iron removal by filtration manganese purification
Equipment, mainly by vertical circular tank body, water inlet pipe, aerating mouth, inlet valve, point water plate, oxidizing chamber, quincunx water distributor, row
The components such as dirty pipe, water filter plate, outlet pipe are constituted, it is characterized in that being equipped with three-legged support under tank body, middle part is equipped with manhole;Upper cover
Top is equipped with water inlet pipe, aerating mouth, inlet valve is housed thereon, upper end connects with point water plate again;Tank body top is equipped with oxidizing chamber,
It is built-in to have oxide filler;Oxidizing chamber lower end connects with quincunx water distributor, and water distributor connects with blow-off pipe and blowdown valve again;Tank body
Lower part is equipped with water filter plate, and filtrate is housed thereon;Low head bottom is equipped with outlet pipe, which is provided with secondary sewage draining exit and feed water valve;
Outlet pipe is connected with water inlet pipe again by pipeline and backwash valve.The water oxygen iron removal by filtration manganese cleaning equipment is arranged in top of the tank
Oxidizing chamber and oxide filler, but gas-liquid is difficult to be sufficiently mixed in a short time, therefore, removing of iron and manganese effect is general, has
Wait for the promotion of efficiency.
Utility model content
And effect efficient the purpose of this utility model is to provide metal ions such as a kind of ferrimanganics in structure novel, purified water
The good removing of iron and manganese filter plant of fruit.
To achieve the goals above, the utility model provides the following technical solutions:
A kind of high-efficiency ferrimanganic removing filter plant comprising:
Tank body, top are provided with water inlet, and bottom end is provided with water outlet, and inside is equipped with the filtrate for filtering out Fe and Mn;
Nozzle is installed on the inside of the water inlet, which is located in the tank body and towards the filtrate;
Air and liquid mixer is connected by water inlet pipe with the water inlet of the tank body;One end of the water inlet pipe with it is described
The outside of water inlet passes through flanged joint by flanged joint, the other end with the air and liquid mixer;
Immersible pump is connected by upper hose with the air and liquid mixer;One end of the upper hose and the immersible pump
By flanged joint, the other end passes through flanged joint with the air and liquid mixer;
Aerating pumps, and is connected respectively with the upper hose and the tank body, for the air and liquid mixer and described
Oxygen is pumped in tank body;
Outlet pipe is connected with the water outlet on the tank body, and one end and the outside of the water outlet are connected by flange
It connects;
Blow-off pipe is connected with the bottom of the tank body, and one end and the bottom of the tank body pass through flanged joint;
Wind turbine, is mounted on the top of the tank body, and flabellum is placed in the inside of the tank body and the top positioned at filtrate.
Preferably, being equipped at least one exhaust pipe being connected with the tank interior on the tank body.
Preferably, being connected with the air bleeding valve for controlling exhaust pipe opening and closing on the exhaust pipe.
Preferably, being connected at the immersible pump for preventing from being pumped to the gas-liquid mixed on the upper hose
The check-valves of the upper water reflux of device.
Preferably, being connected at the air and liquid mixer for controlling upper hose opening and closing on the upper hose
Upper water main valve.
Preferably, being connected with the pressure gauge for showing intake pressure on the water inlet pipe.
Preferably, being connected with the water outlet main valve for controlling outlet pipe opening and closing on the outlet pipe.
Preferably, being connected with the blow valve for the tank interior gas to be discharged on the outlet pipe.
Preferably, being connected with the blowdown valve for controlling blow-off pipe opening and closing on the blow-off pipe.
Preferably, offering the manhole for observing the tank interior and maintenance on the tank body.
Underground water is pumped to air and liquid mixer by high-efficiency ferrimanganic removing filter plant provided by the utility model, immersible pump,
Meanwhile oxygen is pumped to air and liquid mixer and tank body by aerating pump.In air and liquid mixer, the Fe and Mn in raw water starts
Oxidation, then raw water is transported further the water inlet to tank body through water inlet pipe and is spilled into tank body from nozzle.Due to aerating
Pump also pumps oxygen into tank body, and under the action of wind turbine oxygen is diffused in tank body, the raw water into the tank body
Oxidation reaction further occurs for the oxygen in its Fe and Mn and tank body for containing.When raw water flows through filtrate (by quartz sand, nothing
The compositions such as bituminous coal filtrate, manganese sand, activated carbon) when, oxidation reaction and filter material surface biological chemistry action are in contact in filtering layer
With Physical entrapment suction-operated, make ferromanganese ion precipitation removal in raw water.The high-efficiency ferrimanganic removing filter plant structure novel, filtering
Ultrahigh in efficiency, and the effect for removing ferromanganese ion is favourable.
Description of the drawings
In order to illustrate the technical solutions in the embodiments of the present application or in the prior art more clearly, below will be to institute in embodiment
Attached drawing to be used is needed to be briefly described, it should be apparent that, the accompanying drawings in the following description is only described in the utility model
Some embodiments, for those of ordinary skill in the art, other drawings may also be obtained based on these drawings.
Fig. 1 is the structural schematic diagram for the high-efficiency ferrimanganic removing filter plant that the utility model embodiment provides.
Reference sign:
1, tank body;1a, water inlet;1b, water outlet;1c, manhole;2, air and liquid mixer;3, water inlet pipe;4, immersible pump;5,
Upper hose;6, aerating pumps;7, outlet pipe;8, blow-off pipe;9, wind turbine;9a, flabellum;10, exhaust pipe;11, air bleeding valve;12, non-return
Valve;13, upper water main valve;14, pressure gauge;15, it is discharged main valve;16, blow valve;17, blowdown valve;18, nozzle.
Specific implementation mode
In order to make those skilled in the art more fully understand the technical solution of the utility model, below in conjunction with attached drawing pair
The utility model is further detailed.
It should be noted that herein, relational terms such as first and second and the like are used merely to a reality
Body or operation are distinguished with another entity or operation, are deposited without necessarily requiring or implying between these entities or operation
In any actual relationship or order or sequence.Moreover, the terms "include", "comprise" or its any other variant are intended to
Non-exclusive inclusion, so that process, method, article or terminal device including a series of elements include not only those
Element, but also include other elements that are not explicitly listed, or further include for this process, method, article or end
The intrinsic element of end equipment.In the absence of more restrictions, being limited by sentence " including ... " or " including ... "
Element, it is not excluded that there is also other elements in process, method, article or the terminal device including the element.This
Outside, herein, " being more than ", " being less than ", " being more than " etc. are interpreted as not including this number;" more than ", " following ", " within " etc. understandings
It includes this number to be.
As shown in Figure 1, a kind of high-efficiency ferrimanganic removing filter plant comprising tank body 1, air and liquid mixer 2, water inlet pipe 3, diving
Pump 4, upper hose 5, aerating pump 6, outlet pipe 7, blow-off pipe 8, wind turbine 9.Wherein, the top of tank body 1 is provided with water inlet 1a, bottom end
It is provided with water outlet 1b, inside is equipped with the filtrate for filtering out Fe and Mn.These filtrates by quartz sand, ANTHRACITE FILTER MEDIA, manganese sand,
The compositions such as activated carbon.Nozzle 18 is installed on the inside of the water inlet 1a, which is located in the tank body 1 and towards described
Filtrate.In addition, for the ease of observing inside and the easy access of the tank body 1, then preferably, manhole is offered on tank body 1
1c.Wind turbine 9 is mounted on the top of the tank body 1, and flabellum 9a is placed in the inside of the tank body 1 and the top positioned at filtrate.
Air and liquid mixer 2 is connected by water inlet pipe 3 with the water inlet 1a of the tank body 1.One end of the water inlet pipe 3 and institute
The outside of water inlet 1a is stated by flanged joint, the other end passes through flanged joint with the air and liquid mixer 2.The water inlet pipe 3
On be connected with pressure gauge 14 for showing intake pressure, in order to easily obtain the data of intake pressure.Immersible pump 4 is by upper
Water pipe 5 is connected with the air and liquid mixer 2.One end of the upper hose 5 passes through flanged joint, the other end with the immersible pump 4
Pass through flanged joint with the air and liquid mixer 2.Preferably, it is connected with and is used at the immersible pump 4 on the upper hose 5
Prevent the check-valves 12 for the upper water reflux for being pumped to the air and liquid mixer 2.It is further preferred that close on the upper hose 5
It is connected with the upper water main valve 13 for controlling the upper hose 5 opening and closing at the air and liquid mixer 2, is controlled by upper water main valve 13
Whether conveyed into air and liquid mixer 2 and the raw water to come is pumped by immersible pump 4.
Aerating pump 6 is connected with the upper hose 5 and the tank body 1 respectively, for the air and liquid mixer 2 and described
Oxygen is pumped in tank body 1.Preferably, aerating pump 6 is connected with the top of the tank body 1, in order to which oxygen is flowed to tank body 1
It is dynamic.In order to avoid pressure is excessive and cause to burst in tank body 1, then preferably, be equipped on the tank body 1 it is at least one with should
The exhaust pipe 10 being connected inside tank body 1 can deflate, to reduce tank body 1 when pressure is excessive in tank body 1 from exhaust pipe 10
Interior pressure.In addition, the air bleeding valve 11 for controlling the exhaust pipe 10 opening and closing is connected on the exhaust pipe 10, when needing to be depressured
When, then the air bleeding valve 11 is opened, otherwise air bleeding valve 11 is then in normally off.
Outlet pipe 7 is connected with the water outlet 1b on the tank body 1, and passes through flange on the outside of one end and water outlet 1b
Connection.Preferably, the water outlet main valve 15 for controlling the outlet pipe 7 opening and closing is connected on the outlet pipe 7.In order to avoid tank body
Gas inside 1 blocks outlet pipe 7, causes to be discharged unsmooth, preferably, therefore, is connected on outlet pipe 7 for by the tank
The blow valve 16 of 1 internal gas of body discharge.Blow-off pipe 8 is connected with the bottom of the tank body 1, and the bottom of one end and the tank body 1
Portion passes through flanged joint.Preferably, the blowdown valve 17 for controlling the blow-off pipe 8 opening and closing is connected on the blow-off pipe 8.Right
The initial stage that raw water is filtered, the removal of ferromanganese ion are not that very thoroughly, can then open blowdown valve 17, this part water warp
Blow-off pipe 8 is discharged.With deepening continuously for filter process, the improvement with obvious effects of ferromanganese ion is removed, it is to be detected to comply with standard
Afterwards, water outlet main valve 15 is opened, can be delivered to through outlet pipe 7 by qualified water outlet from the water outlet 1b outputs of tank body 1 and need to use water
Place.
The high-efficiency ferrimanganic removing filter plant that the present embodiment is provided, structure novel, filter efficiency is high, and go removing of iron and manganese from
The effect of son is favourable, and underground water is pumped to air and liquid mixer 2 through upper hose 5 by immersible pump 4, meanwhile, aerating pumps 6 by oxygen
Gas is pumped to air and liquid mixer 2 and tank body 1.In air and liquid mixer 2, the Fe and Mn in raw water starts to aoxidize, then raw water
It is transported further to the water inlet 1a on tank body 1 through water inlet pipe 3, water is spilled into tank body 1 by nozzle 18.Due to aerating pump 6
Also oxygen is pumped into tank body 1, and under the action of wind turbine 9 oxygen is diffused in tank body 1, the original into the tank body 1
With the oxygen in tank body 1 oxidation reaction further occurs for its Fe and Mn contained of water.When raw water flows through filtrate, in filtering layer
In be in contact oxidation reaction and filter material surface biological chemistry action and Physical entrapment suction-operated, make in raw water ferromanganese ion heavy
It forms sediment and removes.At the initial stage being filtered to raw water, the removal of ferromanganese ion be not very thoroughly, then can be by this part water through row
Dirty pipe 8 is discharged.With deepening continuously for filter process, remove the improvement with obvious effects of ferromanganese ion, it is to be detected comply with standard after,
Can be by qualified water outlet from the water outlet 1b outputs of tank body 1, and the place needed with water is delivered to through outlet pipe 7.
Above certain exemplary embodiments that the utility model is only described by way of explanation, undoubtedly, for
Those skilled in the art can be with a variety of different without departing from the spirit and scope of the utility model
Mode is modified described embodiment.Therefore, above-mentioned attached drawing and description are regarded as illustrative in nature, and should not be construed as
Limitation to the utility model claims protection domain.
Claims (10)
1. a kind of high-efficiency ferrimanganic removing filter plant, which is characterized in that including:
Tank body, top are provided with water inlet, and bottom end is provided with water outlet, and inside is equipped with the filtrate for filtering out Fe and Mn;It is described
Nozzle is installed, which is located in the tank body and towards the filtrate on the inside of water inlet;
Air and liquid mixer is connected by water inlet pipe with the water inlet of the tank body;One end of the water inlet pipe and the water inlet
The outside of mouth passes through flanged joint by flanged joint, the other end with the air and liquid mixer;
Immersible pump is connected by upper hose with the air and liquid mixer;One end of the upper hose passes through with the immersible pump
Flanged joint, the other end pass through flanged joint with the air and liquid mixer;
Aerating pumps, and is connected respectively with the upper hose and the tank body, is used for the air and liquid mixer and the tank body
Interior pumping oxygen;
Outlet pipe is connected with the water outlet on the tank body, and passes through flanged joint on the outside of one end and the water outlet;
Blow-off pipe is connected with the bottom of the tank body, and one end and the bottom of the tank body pass through flanged joint;
Wind turbine, is mounted on the top of the tank body, and flabellum is placed in the inside of the tank body and the top positioned at filtrate.
2. high-efficiency ferrimanganic removing filter plant according to claim 1, which is characterized in that be equipped at least one on the tank body
A exhaust pipe being connected with the tank interior.
3. high-efficiency ferrimanganic removing filter plant according to claim 2, which is characterized in that be connected with and be used on the exhaust pipe
Control the air bleeding valve of exhaust pipe opening and closing.
4. high-efficiency ferrimanganic removing filter plant according to claim 1, which is characterized in that close to described latent on the upper hose
The check-valves of the upper water reflux for preventing from being pumped to the air and liquid mixer is connected at water pump.
5. high-efficiency ferrimanganic removing filter plant according to claim 4, which is characterized in that close to the gas on the upper hose
The upper water main valve for controlling upper hose opening and closing is connected at liquid mixer.
6. high-efficiency ferrimanganic removing filter plant according to claim 1, which is characterized in that be connected with and be used on the water inlet pipe
Show the pressure gauge of intake pressure.
7. high-efficiency ferrimanganic removing filter plant according to claim 1, which is characterized in that be connected with and be used on the outlet pipe
Control the water outlet main valve of outlet pipe opening and closing.
8. high-efficiency ferrimanganic removing filter plant according to claim 7, which is characterized in that be connected with and be used on the outlet pipe
The blow valve that the tank interior gas is discharged.
9. high-efficiency ferrimanganic removing filter plant according to claim 1, which is characterized in that be connected with and be used on the blow-off pipe
Control the blowdown valve of blow-off pipe opening and closing.
10. high-efficiency ferrimanganic removing filter plant according to claim 1, which is characterized in that offer and be used on the tank body
Observe the manhole of the tank interior and maintenance.
Priority Applications (1)
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CN201820097041.0U CN208071533U (en) | 2018-01-19 | 2018-01-19 | A kind of high-efficiency ferrimanganic removing filter plant |
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CN201820097041.0U CN208071533U (en) | 2018-01-19 | 2018-01-19 | A kind of high-efficiency ferrimanganic removing filter plant |
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CN201820097041.0U Active CN208071533U (en) | 2018-01-19 | 2018-01-19 | A kind of high-efficiency ferrimanganic removing filter plant |
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