CN204310854U - Water-purification plant - Google Patents

Water-purification plant Download PDF

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Publication number
CN204310854U
CN204310854U CN201420748894.8U CN201420748894U CN204310854U CN 204310854 U CN204310854 U CN 204310854U CN 201420748894 U CN201420748894 U CN 201420748894U CN 204310854 U CN204310854 U CN 204310854U
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China
Prior art keywords
cylinder
water
pressure
purification plant
hole
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CN201420748894.8U
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Chinese (zh)
Inventor
苏培鑫
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SHENZHEN BORU ENVIRONMENT TECHNOLOGY Co Ltd
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SHENZHEN BORU ENVIRONMENT TECHNOLOGY Co Ltd
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Priority to CN201420748894.8U priority Critical patent/CN204310854U/en
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Abstract

The utility model discloses a kind of water-purification plant, comprise the first pressure cylinder, the second pressure cylinder, the first cylinder body and the second cylinder body, wherein the first pressure cylinder, the second cylinder body and the second pressure cylinder set gradually from bottom to top, and the second cylinder body is arranged in the first cylinder body; First pressure cylinder and the second pressure cylinder are one end open, and the other end offers the first through hole, all round closure; First cylinder body and the equal both ends open of the second cylinder body, and arrange in hollow tube-shape; Second cylinder body offers and the water-in forming the first water stream channel between the first cylinder body and the second cylinder body and be communicated with; The outer wall of described second cylinder body is inserted with the rising pipe be communicated with the first cylinder body.Water-purification plant of the present utility model, under the pressure effect of the first pressure cylinder and the second pressure cylinder, achieves the abundant filtration of water; Improve the intensity of water treatment; Reduce the pollution level of floating matter to filtering material, substantially increase the work-ing life of filtering material, reduce the cost of Water warfare.

Description

Water-purification plant
Technical field
The utility model relates to water treatment field, particularly relates to a kind of water-purification plant
Background technology
China is the country of a water resources famine, and the shortage of water resources has had a strong impact on the weather of people.In recent years, exhausting effluent problem is given prominence to, much life of urban resident sewage imports blowdown pipe network and focuses on, but due to economy, social development is uneven, sewage network is not built in Some Cities And Towns and vast Rural areas, resident living sewage discharge is in state of disarray, in line, disorderly row's phenomenon is general, partial rivers current are caused to worsen, the contribution rate of water pollution is risen just year by year, if in the past for a long time, will the serious harm people healthy, therefore, in order to alleviate the pressure of sewage disposal, people have to strengthen the strength disposal of sewage.
The larger material of the particle filtered in sewage often first wanted to the process of sewage, e.g., was removed the silt in sewage by the mixture of gac and quartz sand.But existing waste disposal plant is bad to the floating matter removal effect in sewage, as the oil stain in water or other floating organism etc.Floating matter is often jammed in filtering material after filtering material filters, and causes filtering material contaminated, and is difficult to remove pollutent, and this will cause the secondary pollution of water.
Utility model content
Main purpose of the present utility model is to provide a kind of water-purification plant, is intended to solve the problem of existing water-purification plant to the floater filtering weak effect in water.
A kind of water-purification plant is provided for achieving the above object, it is characterized in that, described water-purification plant comprises the first pressure cylinder, the second pressure cylinder, the first cylinder body and the second cylinder body, described first pressure cylinder, the second cylinder body and the second pressure cylinder connect successively, and described first cylinder body is contained in the second cylinder body;
The both ends open that described first cylinder body is relative, and arrange in hollow, this first cylinder body is for putting the filtering material of water filtration; The both ends open that described second cylinder body is relative, and arrange in hollow; Described first pressure cylinder comprises the first current end and first row water end (W.E.), and described first current end is provided with opening for water flow, and described first row water end (W.E.) offers the first through hole for water flow; Described second pressure cylinder comprises the second current end and second row water end (W.E.), and arranges in hollow, and described second current end is provided with opening for water flow, and described second row water end (W.E.) offers the second through hole for water flow;
Described first current end connects one end of described second cylinder body, the other end of described second cylinder body connects described second current end, form the first water stream channel between described first cylinder body and the second cylinder body, described first water stream channel is communicated with described first pressure cylinder and the second pressure cylinder; The outer wall of described second cylinder body offers the water-in be communicated with described first water stream channel; The outer wall of described second cylinder body is also inserted with the rising pipe be communicated with described first cylinder body;
This water-purification plant is to before water filtration, and described first through hole is in closing condition, and described second through hole is in open mode; When this device blowdown, described first through hole and the second through hole are all opened.
Preferably, the first web member for described first cylinder body and the second cylinder body being connected with described first pressure cylinder is also provided with between described second cylinder body with described first pressure cylinder, described first web member is provided with the first pod apertures for being communicated with described first pressure cylinder by described first water stream channel, and the second pod apertures for described first cylinder body is communicated with described first pressure cylinder.
Preferably, described first web member comprises the first web plate, described first web plate offers a through hole, the periphery of described through hole extends the first circular cylinder towards the direction in the plate face deviating from this first web plate, described first circular cylinder is provided with away from one end of the first web plate the first baffle plate covered by the port of this first circular cylinder, described first baffle plate arranges described second pod apertures, the periphery of this second pod apertures extends the second circular cylinder towards the direction in the plate face deviating from this first baffle plate, first baffle plate of the periphery of described second circular cylinder arranges described first pod apertures, described first circular cylinder is between described first web plate and described second circular cylinder, the bore of described first circular cylinder is greater than described second circular cylinder bore.
Preferably, described first circular column vertical is in described first web plate, and described second circular column vertical is in described first baffle plate.
Preferably, described second circular cylinder is provided with away from one end of the first baffle plate the second baffle covered by the port of this second circular cylinder, and described second baffle offers pressurized hole.
Preferably, the position of the outer wall of corresponding first pressure cylinder of described first current end is arranged with the first stiffener for being connected with described first web member.
Preferably, the second web member for being connected with described second pressure cylinder by described second cylinder body is also provided with between described second cylinder body with described second pressure cylinder, described second web member offers the 3rd pod apertures for being communicated with described first water stream channel and the first cylinder body, and the 4th pod apertures for being communicated with described first cylinder body.
Preferably, the position of the outer wall of corresponding second pressure cylinder of described second current end is arranged with the second stiffener for being connected with described second web member.
Preferably, two dividing plates are provided with in described first cylinder body, described dividing plate offers multiple through hole, the inner chamber of described first cylinder body is separated into the first filtration zone that the radial direction along the first cylinder body arranges, staging area and the second filtration zone by this dividing plate, and described rising pipe is communicated with described staging area through the outer wall of described second cylinder body.
Preferably, described first through hole is inserted with the first blow-off pipe, and described second through hole is inserted with the second blow-off pipe, and described first blow-off pipe and the second blow-off pipe are provided with flow control valve door.
Water-purification plant of the present utility model, under the pressure effect of the first pressure cylinder and the second pressure cylinder, achieves the abundant filtration of water to be clean; Water float thing is discharged, improves the intensity of Water warfare; Reduce the pollution level of floating matter to filtering material, substantially increase the work-ing life of filtering material, reduce the cost of Water warfare.
Accompanying drawing explanation
Fig. 1 is the perspective view of an embodiment of the utility model water-purification plant;
Fig. 2 is the structural representation of the first pressure cylinder of water-purification plant in Fig. 1;
Fig. 3 is the structural representation of the second pressure cylinder of water-purification plant in Fig. 1;
Fig. 4 is the structural representation of the first web member of water-purification plant in Fig. 1;
Fig. 5 is the structural representation of the second web member of water-purification plant in Fig. 1;
Fig. 6 is the side-looking two dimensional structure schematic diagram of water-purification plant in Fig. 1;
Fig. 7 is the two dimensional structure schematic diagram at another visual angle of the water-purification plant of Fig. 6;
Fig. 8 is the cross-sectional view of water-purification plant along an embodiment of A-A line of Fig. 7;
Fig. 9 is provided with the cross-sectional view of the water-purification plant in Fig. 7 of filtering material along an embodiment of A-A line in the first cylinder body;
Figure 10 is the cross-sectional view of Fig. 7 along another embodiment of A-A line, and wherein the direction of arrow represents the direction of current in water treatment procedure.
The realization of the utility model object, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.
Embodiment
Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.
The utility model provides a kind of water-purification plant, and with reference to Fig. 1, in one embodiment, described water-purification plant comprises the first pressure cylinder 10, first cylinder body 11 (with reference to Fig. 8), the second cylinder body 12, second pressure cylinder 13.First pressure cylinder 10, second cylinder body 12, second pressure cylinder 13 connects successively, and the first cylinder body 11 is contained in the second cylinder body 12.
With reference to Fig. 2, described first pressure cylinder 10 comprises the first current end 104, and first row water end (W.E.) 102.In the present embodiment, this first current end 104 is oppositely arranged with first row water end (W.E.) 102, and the first current end 104 has opening for water flow.First row water end (W.E.) 102 offers the first through hole 101 for water flow.
With reference to Fig. 8, described first cylinder body 11 both ends open, and arrange in hollow tube-shape.
Described second cylinder body 12 both ends open, and arrange in hollow tube-shape.
With reference to Fig. 3, described second pressure cylinder 13 comprises the second current end 134, and second row water end (W.E.) 133.In the present embodiment, this second current end 134 is oppositely arranged with second row water end (W.E.) 133, and the second current end 134 has opening for water flow.Second row water end (W.E.) 133 offers the second through hole 131 for water flow.
Described first current end 104 connects one end of described second cylinder body 12, and the other end of described second cylinder body 12 connects described second current end 134.Described first cylinder body 11 is fixedly installed in described second cylinder body 12, forms the first water stream channel 123 between described first cylinder body 11 and the second cylinder body 12, and described first water stream channel 123 is communicated with described first pressure cylinder 10 and the second pressure cylinder 13; The outer wall of described second cylinder body 12 offers the water-in 121 be communicated with described first water stream channel 123; The outer wall of this water-purification plant is also inserted with the rising pipe 122 be communicated with described first cylinder body 11.Preferably, water-in 121 and rising pipe 122 are oppositely arranged.
This water-purification plant is to before water filtration, and described first through hole 101 is in closing condition, and described second through hole 131 is in open mode; When this device prepares blowdown, described first through hole 101 and the second through hole 131 are all opened.
Concrete, described water-purification plant is vertically place when filtering, namely described first pressure cylinder 10 is positioned at the bottom of this water-purification plant, second pressure cylinder 13 is positioned at the top of this water-purification plant, when entering the first water stream channel 123 wait the water of evolving from described water-in 121, first water to be clean enter in described first pressure cylinder 10, along with water to be clean increases gradually, water level rises gradually, water to be clean is under the pressure effect of hydraulic pressure and described first pressure cylinder 10, be pressed into gradually filtering material in the first cylinder body 11 (as, the mixture of gac and quartz sand) in, water to be clean is discharged from described rising pipe 122 after filtration of material after filtration.During filtration, first closed by the first through hole 101, water to be clean water level in the first water stream channel 123 raises gradually, until rise in the second pressure cylinder 13, then discharges through the second through hole 131.In the process, first the part silt in water to be clean or other large granular impurities are deposited in the bottom of described first cylinder body 10 on the one hand due to action of gravity, on the other hand due to the filtration of filtering material, unprecipitated silt in water to be clean is residued in the first pressure cylinder 10 by stop, and the silt of unprecipitated impurity and precipitation is all discharged by opening the first through hole 101; Secondly, because the floating matter in water to be clean is in the surface of water body, when water to be clean water level in the first water stream channel 123 rises to described second pressure cylinder 13, described floating matter is discharged by the second through hole 131.
Water-purification plant of the present utility model is under the pressure effect of the first pressure cylinder 10 and the second pressure cylinder 13, on the one hand the large granular impurities such as the silt in water to be clean are discharged from the first through hole 101, floating matter in water to be clean is discharged from the second through hole 131, realize the abundant filtration of water to be clean, improve the intensity of Water warfare; This water-purification plant also reduces the pollution level of floating matter to filtering material, substantially increases the work-ing life of filtering material, reduces the cost of purifying water process.
Further, with reference to Fig. 4, the first web member 14 for described first cylinder body 11 and the second cylinder body 12 being connected with described first pressure cylinder 10 is also provided with between described second cylinder body 12 with described first pressure cylinder 10, described first web member 14 is provided with the first pod apertures 1431 for being communicated with described first pressure cylinder 10 by described first water stream channel 123, and the second pod apertures (not indicating in figure) for described first cylinder body 11 is communicated with described first pressure cylinder 10.
Concrete, described first web member 14 comprises the first web plate 141, described first web plate 141 offers a through hole, the periphery of described through hole extends the first circular cylinder 142 towards the direction in the plate face deviating from this first web plate 141, described first circular cylinder 142 is provided with away from one end of the first web plate 141 the first baffle plate 143 covered by the port of this first circular cylinder 142, described first baffle plate 143 is provided with described second pod apertures, the periphery of this second pod apertures extends the second circular cylinder 144 towards the direction in the plate face deviating from this first baffle plate 143, first baffle plate 143 of the periphery of described second circular cylinder 144 is also provided with described first pod apertures 1431, described first circular cylinder 142 is between described first web plate 141 and described second circular cylinder 144, the bore of described first circular cylinder 142 is greater than the bore of described second circular cylinder 144.It should be noted that, preferably described first circular cylinder 142 is vertical with described first web plate 141 herein, and preferably described second circular cylinder 144 is vertical with described first baffle plate 143.
At this, first current end 104 of the first pressure cylinder 10 covers by described first web plate 141, and be fixedly connected with (as being threaded) with the first pressure cylinder 10, the sheathed described second circular cylinder 144 of described first cylinder body 11, and the first cylinder body 11 and the second circular cylinder 144 are tightly connected; The sheathed described first circular cylinder 142 of described second cylinder body 12, and the second cylinder body 12 is tightly connected with described first circular cylinder 142.So just strengthen the first cylinder body 11 and the connection compactness between the second cylinder body 12 and the first pressure cylinder 10.
Further, described second circular cylinder 144 is provided with away from one end of the first baffle plate 143 second baffle 145 covered by the port of this second circular cylinder 144, and described second baffle 145 offers pressurized hole 1451.
Because described filtering material itself is large to the comparison of resistance of current, in order to promote the speed of water filtration, in the present embodiment, water can be made more easily to be pressed in described filtering material by arranging pressurized hole 1451.When water to be filtered enters the first pressure cylinder 10, (the first through hole 101 is in closedown or part closing condition) water to be clean is pressed into filtering material by the first pressure cylinder 10 from the first current end 104 gradually, under uniform pressure condition, the port area that current enter filtering material reduces, be equivalent to add the pressure that current enter filtering material, so just make current more easily enter in filtering material, improve process intensity and the efficiency of water.
Further, with reference to Fig. 2, the position of the outer wall of corresponding first pressure cylinder 10 of described first current end 104 is arranged with the first stiffener 103 for being connected with described first web member 14.
Concrete, in order to strengthen the annexation between described first web member 14 and the first pressure cylinder 10, in the present embodiment, the position of the outer wall of corresponding first pressure cylinder 10 of described first current end 104 is arranged with the first stiffener 103 for being connected with described first web member 14.Described first stiffener 103 is threaded with described web member 14.First pressure cylinder 10 is threaded with the screw 1411 in Fig. 4 by the screw 1031 in Fig. 2 with the first web member 14.
Further, with reference to Fig. 5, the second web member 15 for being connected with described second pressure cylinder 13 by described second cylinder body 12 is also provided with between described second cylinder body 12 with described second pressure cylinder 13, described second web member 15 offers the 3rd pod apertures 153 for being communicated with described first water stream channel 123, and the 4th pod apertures 151 for being communicated with described first cylinder body 11.The position of the outer wall of corresponding second pressure cylinder 13 of described second current end 134 is arranged with the second stiffener 132 for being connected with described second web member 15.
With reference to Fig. 3, the screw 135 that the second stiffener 132 is arranged; With reference to Fig. 5, the periphery of the 3rd pod apertures 153 of the second web member 15 is provided with screw 152; Described second pressure cylinder 13 is connected via same screw by described screw 135 and screw 152 screw thread with described second web member 15.
Further, with reference to Fig. 6, Fig. 7, Fig. 8 and Fig. 9, described rising pipe 122 is communicated with described first cylinder body 11 through described second cylinder body 12.
Concrete, when arranging filtering material (mixture of quartz sand and gac, gac) 20 in described first cylinder body 11, between the inside of filtering material 20 and described first cylinder body 11, form the second water stream channel 201.Owing to being be pressed into water to be clean from the two ends of this filtering material 20 during filtering material 20 filtered water, after water is filtered, discharging from the periphery wall of this filtering material 20, and enter in described second water stream channel 201, then discharge via described rising pipe 122.
Further, with reference to Figure 10, two dividing plates 110 are provided with in described first cylinder body 11, described dividing plate 110 offers multiple permeable hole, the inner chamber of described first cylinder body 11 is separated into the first filtration zone 111 that the radial direction along the first cylinder body 11 arranges, staging area 113 and the second filtration zone 112 by this dividing plate 110, and described rising pipe 122 is communicated with described staging area 113 through the outer wall of described second cylinder body 12.
When carrying out silt to current or other larger particles comparatively filter, need to add filtering material in described first cylinder body 11.In the present embodiment, first cylinder body 11 to be separated into the first filtration zone 111 that the radial direction along the first cylinder body 11 arranges, staging area 113 and the second filtration zone 112 by the arranging of two dividing plates 110, filtering material (mixture of quartz sand and gac, gac) is all added at described first filtration zone 111 and the second filtration zone 113, current enter described staging area 113 after the first filtration zone 111 and the second filtration zone 112 filter, and the water in this staging area 113 is discharged via described rising pipe 122.If the particulate matter such as silt is more in water to be clean, the filtering material in described second misgivings region 112 can be blocked gradually, and then lose filtering function, now can be changed.In addition, if the oil stain in water is more, filtering material in described first filtration zone 111 may be contaminated (certain gradually, filtering material in first filtration zone 111 is for common water-purification plant, its life cycle extends greatly), can be changed in this case, after avoiding water filtration, be subject to secondary pollution.
Further, with reference to Fig. 2, the cross-sectional area being parallel to the first current end 10 end face of the inner chamber of described first pressure cylinder 10 reduces towards described first row water end (W.E.) 102 gradually from described first current end 104.
Concrete, the inner chamber of described first pressure cylinder 10 can be arranged in various shape, such as square, round shape etc.But for the ease of the first pressure cylinder 10 to the discharge of the impurity being filtered out, the cross-sectional area being parallel to the end face of the first current end 104 of the inner chamber of described first pressure cylinder 10 reduces towards described first row water end (W.E.) 102 gradually from described first current end 104 in the present embodiment, like this, can discharge via the first through hole 101 of the first pressure cylinder 10 after the impurity in water to be clean is filtered.This set of first pressure cylinder 10 can not formation dead angle, bottom in the first pressure cylinder 10, and impurity can not bottom deposit in the first pressure cylinder 10.
Further, with reference to Fig. 3, the cross-sectional area being parallel to the second current end 134 end face of the inner chamber of described second pressure cylinder 13 reduces towards described second row water end (W.E.) 133 gradually from described second current end 134.
Concrete, although the top of the second pressure cylinder 13 offers the second through hole 131 for discharging floating matter, but, if the inner cavity top of the second pressure cylinder 13 is concordant, fraction floats thing must be caused directly to get rid of, and can be accumulated, accumulation too much just may cause the second through hole 131 blocked.The cross-sectional area being parallel to the end face of the second current end 134 of the inner chamber of the second pressure cylinder 13 described in the present embodiment reduces towards described second row water end (W.E.) 133 gradually from described second current end 134, such as, the inner chamber of the second pressure cylinder 13 can be arranged to taper, the level and smooth inwall of the second pressure cylinder 13 plays guide effect when floating matter discharges, and floating matter can be discharged rapidly.
Further, described first through hole 101 is inserted with the first blow-off pipe, and described second through hole 131 is inserted with the second blow-off pipe, and described first blow-off pipe is provided with the first valve, and the second blow-off pipe is provided with the second valve.
Speed for water treatment can control by regulating the first valve and the second valve, can by the pressure size regulating the first valve and the second valve to control this water-purification plant inside.Such as, containing more silt in the water body of northern China, when this water quality is filtered by this water-purification plant, the second valve can be regulated, accelerate sewage discharge speed in the first pressure cylinder 10.In the water of coastland, salt content is higher, when this water quality is filtered by this water-purification plant, the first valve and the second valve can be regulated, reduce the drainage rate of the first pressure cylinder 10 and the second pressure cylinder 13, strengthen the integral pressure of this water-purification plant inside, accelerate to make the filtering rate of water to be clean.
The experiment test of the larger impurity of the particle such as silt, colloid and oil stain is filtered with the mixture of gac and quartz sand:
After water to be clean enters the water-in 121 of this water-purification plant, under the pressure effect of intake pressure and the first pressure cylinder 10 and the second pressure cylinder 13, this water-purification plant is regulated by bottom and top pressure, silt in water, mud, spot, particulate matter, colloid are by mixture, the Activated carbon separation of quartz sand and gac, then the sewage draining exit of the first pressure cylinder 10 of cone-shaped body is deposited to, water after treatment, by isolation impurity, flows out from water purification mouth, becomes water purification.After tested, this water-purification plant purifies waste water the scrubbing rate of the larger impurity of the removing particle such as silt, colloid up to 80%, reaches 100% to the clearance of oil stain.
These are only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model specification sheets and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (10)

1. a water-purification plant, it is characterized in that, described water-purification plant comprises the first pressure cylinder, the second pressure cylinder, the first cylinder body and the second cylinder body, and described first pressure cylinder, the second cylinder body and the second pressure cylinder connect successively, and described first cylinder body is contained in the second cylinder body;
The two ends that described first cylinder body is relative have opening, and arrange in hollow, and this first cylinder body is for putting the filtering material of water filtration; The two ends that described second cylinder body is relative have opening, and arrange in hollow; Described first pressure cylinder comprises the first current end and first row water end (W.E.), and described first current end is provided with opening for water flow, and described first row water end (W.E.) offers the first through hole for water flow; Described second pressure cylinder comprises the second current end and second row water end (W.E.), and arranges in hollow, and described second current end is provided with opening for water flow, and described second row water end (W.E.) offers the second through hole for water flow;
Described first current end connects one end of described second cylinder body, the other end of described second cylinder body connects described second current end, form the first water stream channel between described first cylinder body and the second cylinder body, described first water stream channel is communicated with described first pressure cylinder and the second pressure cylinder; The outer wall of described second cylinder body offers the water-in be communicated with described first water stream channel; The outer wall of described second cylinder body is also inserted with the rising pipe be communicated with described first cylinder body;
This water-purification plant is to before water filtration, and described first through hole is in closing condition, and described second through hole is in open mode; When this device blowdown, described first through hole and the second through hole are all opened.
2. water-purification plant as claimed in claim 1, it is characterized in that, the first web member for described first cylinder body and the second cylinder body being connected with described first pressure cylinder is also provided with between described second cylinder body with described first pressure cylinder, described first web member is provided with the first pod apertures for being communicated with described first pressure cylinder by described first water stream channel, and the second pod apertures for described first cylinder body is communicated with described first pressure cylinder.
3. water-purification plant as claimed in claim 2, it is characterized in that, described first web member comprises the first web plate, described first web plate offers a through hole, the periphery of described through hole extends the first circular cylinder towards the direction in the plate face deviating from this first web plate, described first circular cylinder is provided with away from one end of the first web plate the first baffle plate covered by the port of this first circular cylinder, described first baffle plate arranges described second pod apertures, the periphery of this second pod apertures extends the second circular cylinder towards the direction in the plate face deviating from this first baffle plate, first baffle plate of the periphery of described second circular cylinder arranges described first pod apertures, described first circular cylinder is between described first web plate and described second circular cylinder, the bore of described first circular cylinder is greater than described second circular cylinder bore.
4. water-purification plant as claimed in claim 3, it is characterized in that, described first circular column vertical is in described first web plate, and described second circular column vertical is in described first baffle plate.
5. water-purification plant as claimed in claim 3, it is characterized in that, described second circular cylinder is provided with away from one end of the first baffle plate the second baffle covered by the port of this second circular cylinder, and described second baffle offers pressurized hole.
6. water-purification plant as described in any one of claim 2 to 5, is characterized in that, the position of the outer wall of corresponding first pressure cylinder of described first current end is arranged with the first stiffener for being connected with described first web member.
7. the water-purification plant as described in any one of claim 1 to 5, it is characterized in that, the second web member for being connected with described second pressure cylinder by described second cylinder body is also provided with between described second cylinder body with described second pressure cylinder, described second web member offers the 3rd pod apertures for being communicated with described first water stream channel, and the 4th pod apertures for being communicated with described first cylinder body.
8. water-purification plant as claimed in claim 7, is characterized in that, the position of the outer wall of corresponding second pressure cylinder of described second current end is arranged with the second stiffener for being connected with described second web member.
9. the water-purification plant as described in any one of claim 1 to 5, it is characterized in that, two dividing plates are provided with in described first cylinder body, described dividing plate offers multiple through hole, the inner chamber of described first cylinder body is separated into the first filtration zone that the radial direction along the first cylinder body arranges, staging area and the second filtration zone by this dividing plate, and described rising pipe is communicated with described staging area through the outer wall of described second cylinder body.
10. the water-purification plant as described in any one of claim 1 to 5, is characterized in that, described first through hole is inserted with the first blow-off pipe, and described second through hole is inserted with the second blow-off pipe, and described first blow-off pipe and the second blow-off pipe are provided with flow control valve door.
CN201420748894.8U 2014-12-02 2014-12-02 Water-purification plant Withdrawn - After Issue CN204310854U (en)

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CN201420748894.8U CN204310854U (en) 2014-12-02 2014-12-02 Water-purification plant

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Application Number Priority Date Filing Date Title
CN201420748894.8U CN204310854U (en) 2014-12-02 2014-12-02 Water-purification plant

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CN201420748894.8U Withdrawn - After Issue CN204310854U (en) 2014-12-02 2014-12-02 Water-purification plant

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104492131A (en) * 2014-12-02 2015-04-08 深圳市博儒环境技术有限公司 Water purifying device

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104492131A (en) * 2014-12-02 2015-04-08 深圳市博儒环境技术有限公司 Water purifying device
CN104492131B (en) * 2014-12-02 2016-01-13 深圳市博儒环境技术有限公司 Water purification installation
WO2016086680A1 (en) * 2014-12-02 2016-06-09 深圳市博儒环境技术有限公司 Water purification device

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