CN201372241Y - Waste water recycling device - Google Patents
Waste water recycling device Download PDFInfo
- Publication number
- CN201372241Y CN201372241Y CN200920051388U CN200920051388U CN201372241Y CN 201372241 Y CN201372241 Y CN 201372241Y CN 200920051388 U CN200920051388 U CN 200920051388U CN 200920051388 U CN200920051388 U CN 200920051388U CN 201372241 Y CN201372241 Y CN 201372241Y
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- storage tank
- slurry
- filtering
- magnetic
- outlet
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Abstract
The utility model relates to a waste water recycling device which comprises a recycling slurry storage tank, a water pumping pipeline, an air compressor, an air diaphragm pump, a filtering type slurry magnet separator, an agitating slurry storage tank, a slurry pumping pipeline, a waste water conveying pipeline, at least a slurry filtering and magnet sucking mechanism. The air compressor is connected with the air diaphragm pump; the inlet of the air diaphragm pump is connected with the outlet of the water pumping pipeline; the inlet of the water pumping pipeline is inserted into the recycling slurry storage tank; the inlet of the filtering type slurry magnet separator is connected with the outlet of the air diaphragm pump through the waste water conveying pipeline; the outlet of the filtering type slurry magnet separator is connected with the agitating slurry storage tank through the slurry filtering and magnet sucking mechanism; the agitating slurry storage tank is connected with the inlet of the air diaphragm pump through the slurry pumping pipeline; and valves are arranged on the slurry pumping pipeline, the waste water conveying pipeline and the water pumping pipeline. Compared with the prior art, the utility model has the advantages that waste water can be recovered and converted into usable slurry for reuse, thereby reducing the pollution to environment, effectively saving raw materials, and reducing the production cost.
Description
Technical field
The utility model relates to a kind of ceramic machining production line, more specifically to a kind of cycling utilization of wastewater device that is used for ceramic machining production line.
Background technology
Existing ceramic machining production line can produce many waste water in process of production, and existing way generally all is that these waste water are outwelled, and promptly contaminate environment has been wasted raw material again, has increased production cost.
Summary of the invention
The purpose of this utility model is that prior art is improved, and a kind of cycling utilization of wastewater device is provided, and can will utilize once more after the wastewater treatment, and the technical scheme of employing is as follows:
Cycling utilization of wastewater device of the present utility model, comprise the recovery pulp storage tank, pumping conduit, air compressor, the air diaphragms pump, filtering type mud magnetic separator, stir pulp storage tank, the jelly suction pipe road, the waste water transport pipe, at least one group of filtering slurry inhaled magnetic mechanism, it is characterized in that: air compressor is connected with the air diaphragms pump, the air diaphragms pump intake connects the pumping conduit outlet, the pumping conduit inlet inserts and reclaims in the pulp storage tank, filtering type mud magnetic separator inlet connects the air diaphragms pump discharge by the waste water transport pipe, the outlet of filtering type mud magnetic separator is inhaled magnetic mechanism by filtering slurry and is connected the stirring pulp storage tank, stir pulp storage tank and connect air diaphragms pump intake, jelly suction pipe road by the jelly suction pipe road, the waste water transport pipe, be equipped with valve on the pumping conduit.Filtering type mud magnetic separator to useless mud filter for the first time, and will wherein can be on magnet by the impurity absorption of attraction, and then inhale magnetic mechanism by at least one group of filtering slurry and filter once more, will wherein can by the impurity absorption of attraction on magnet, make the muddy water after handling meet the requirement of production.
Described filtering slurry is inhaled magnetic mechanism and is comprised filtering slurry device, mud suction magnetic device, and the outlet of filtering type mud magnetic separator connects the filtering slurry device portal, and the outlet of filtering slurry device connects mud suction magnetic device inlet.
Described filtering slurry device comprises filtration vessel, vibratory screening apparatus, and vibratory screening apparatus is installed in ingress, filtration vessel upper end, and the filtration vessel lower end has outlet.
Described mud is inhaled magnetic device and is comprised inclination runner, the attached rod of a plurality of high-strength magnetic, the height of inclination runner inlet is greater than the height of inclination runner exit, the two ends of the attached rod of high-strength magnetic are separately fixed on two inner side-walls of inclination runner, and inclination runner inlet connects the outlet of filtration vessel lower end.
Described stirring pulp storage tank comprises pulp storage tank body and stirring rake, and stirring rake is installed in the pulp storage tank body.
Described recovery agitated pool comprises recovery agitated pool body and stirring rake, and stirring rake is installed in and reclaims in the agitated pool body.
In order better to draw water, avoid extracting out the mud that stirs mud bottom in the pulp storage tank, the inlet of described pumping conduit is positioned at the first half that reclaims the agitated pool body.Because reclaim in the agitated pool body, the concentration of hydraulic mixture at top is lower, moisture is more, and the concentration of hydraulic mixture of bottom is higher, and moisture is less, and therefore in order to extract the lower muddy water of concentration, preferably the inlet with pumping conduit is positioned at the first half that reclaims the agitated pool body.
The utility model beneficial effect against existing technologies is, can and convert available muddy water to waste water reclamation, for utilizing once more, both reduced the pollution to environment, saved raw material again effectively, reduced production cost.
Description of drawings
Accompanying drawing is the structural representation of the utility model preferred embodiment.
Embodiment
As shown in drawings, in this preferred embodiment useless mud recycle device, comprise and reclaim agitated pool 1, pumping conduit 8, air compressor 9, air diaphragms pump 2, filtering type mud magnetic separator 3, first group of filtering slurry inhaled magnetic mechanism, second group of filtering slurry inhaled magnetic mechanism, stir pulp storage tank 6, jelly suction pipe road 12, waste water transport pipe 11, air compressor 9 is connected with air diaphragms pump 2, air diaphragms pump 2 inlets connect pumping conduit 8 outlets, pumping conduit 8 inlets insert and stir in the pulp storage tank 6, filtering type mud magnetic separator 3 inlets connect 2 outlets of air diaphragms pump by waste water transport pipe 11,3 outlets of filtering type mud magnetic separator are inhaled magnetic mechanism by first group of filtering slurry successively, second group of filtering slurry inhaled magnetic mechanism and connected agitated pool 6, agitated pool 6 connects air diaphragms pump 2 inlets, jelly suction pipe road 12 by jelly suction pipe road 12, useless mud transport pipe 11, be equipped with valve 10 on the pulp-absorbing pipe road 8.
Described first group of filtering slurry inhaled magnetic mechanism and comprised the first filtering slurry device 4, first mud suction magnetic device 5,3 outlets of filtering type mud magnetic separator connect the first filtering slurry device, 4 inlets, and 4 outlets of the first filtering slurry device connect first mud and inhale magnetic device 5 inlets.
The described first filtering slurry device 4 comprises first filtration vessel 402, first vibratory screening apparatus 401, first vibratory screening apparatus 401 is installed in ingress, first filtration vessel, 402 upper end, first filtration vessel, 402 lower ends have outlet, and first filtration vessel, 402 inlets connect 3 outlets of filtering type mud magnetic separator.
Described first mud is inhaled magnetic device 5 and is comprised the first inclination runner 502, a plurality of first high-strength magnetic attached excellent 501, the height of the first inclination runner, 502 inlets is greater than the height of the first inclination runner, 502 outlets, attached excellent 501 the two ends of the first high-strength magnetic are separately fixed on two inner side-walls of the first inclination runner 502, and the first inclination runner, 502 inlets connect the outlet of first filtration vessel, 402 lower ends.
Described second group of filtering slurry inhaled magnetic mechanism and comprised the second filtering slurry device 7, second mud suction magnetic device 8, first mud is inhaled magnetic device 5 outlets and is connected the second filtering slurry device, 7 inlets, 7 outlets of the second filtering slurry device connect second mud and inhale magnetic device 8 inlets, and second mud is inhaled magnetic device 8 outlets and connected agitated pool 6.
The described second filtering slurry device 7 comprises second filtration vessel 702, second vibratory screening apparatus 701, second vibratory screening apparatus 701 is installed in ingress, second filtration vessel, 702 upper end, second filtration vessel, 702 lower ends have outlet, and second filtration vessel, 702 inlets connect 502 outlets of the first inclination runner.
Described second mud is inhaled magnetic device 8 and is comprised the second inclination runner 802, a plurality of second high-strength magnetic attached excellent 801, the height of the second inclination runner, 802 inlets is greater than the height of the second inclination runner, 802 outlets, attached excellent 801 the two ends of the second high-strength magnetic are separately fixed on two inner side-walls of the second inclination runner 802, the second inclination runner, 802 inlets connect the outlet of second filtration vessel, 702 lower ends, and 802 outlets of the second inclination runner connect agitated pool 6.
Described recovery agitated pool 1 comprises recovery agitated pool body 102 and stirring rake 101, and stirring rake 101 is installed in and reclaims in the agitated pool body 102.
Described stirring pulp storage tank 6 comprises that pulp storage tank body 602 and second stirring rake, 601, the second stirring rakes 601 are installed in the pulp storage tank body 602.
The inlet of described pumping conduit 8 is positioned at the first half that reclaims agitated pool body 1.
Introduce working process below:
Open the valve 10 on pumping conduit 8 and the waste water transport pipe 11, close the valve 10 on the jelly suction pipe road 12, the waste water that air diaphragms pump 2 will reclaim in the agitated pool 1 draws up, after inhaling magnetic mechanism, second group of filtering slurry and inhale magnetic mechanism and handle by filtering type mud magnetic separator 3, first group of filtering slurry successively, deliver to and stir in the pulp storage tank 6.
If the mud that stirs in the pulp storage tank 6 does not meet production requirement, also need to filter, then close the valve 10 on the pumping conduit 8, open the valve 10 on the jelly suction pipe road 12, the mud that air diaphragms pump 2 will stir in the pulp storage tank 6 draws up, after inhaling magnetic mechanism, second group of filtering slurry and inhale magnetic mechanism and handle by filtering type mud magnetic separator 3, first group of filtering slurry successively, deliver to and stir in the pulp storage tank 6.
Claims (7)
1, a kind of cycling utilization of wastewater device, comprise the recovery pulp storage tank, pumping conduit, air compressor, the air diaphragms pump, filtering type mud magnetic separator, stir pulp storage tank, the jelly suction pipe road, the waste water transport pipe, at least one group of filtering slurry inhaled magnetic mechanism, it is characterized in that: air compressor is connected with the air diaphragms pump, the air diaphragms pump intake connects the pumping conduit outlet, the pumping conduit inlet inserts and reclaims in the pulp storage tank, filtering type mud magnetic separator inlet connects the air diaphragms pump discharge by the waste water transport pipe, the outlet of filtering type mud magnetic separator is inhaled magnetic mechanism by filtering slurry and is connected the stirring pulp storage tank, stir pulp storage tank and connect air diaphragms pump intake, jelly suction pipe road by the jelly suction pipe road, the waste water transport pipe, be equipped with valve on the pumping conduit.
2, cycling utilization of wastewater device as claimed in claim 1, it is characterized in that: described filtering slurry is inhaled magnetic mechanism and is comprised filtering slurry device, mud suction magnetic device, the outlet of filtering type mud magnetic separator connects the filtering slurry device portal, and the outlet of filtering slurry device connects mud and inhales the magnetic device inlet.
3, cycling utilization of wastewater device as claimed in claim 2 is characterized in that: described filtering slurry device comprises filtration vessel, vibratory screening apparatus, and vibratory screening apparatus is installed in ingress, filtration vessel upper end, and the filtration vessel lower end has outlet.
4, cycling utilization of wastewater device as claimed in claim 3, it is characterized in that: described mud is inhaled magnetic device and is comprised inclination runner, the attached rod of a plurality of high-strength magnetic, the height of inclination runner inlet is greater than the height of inclination runner exit, the two ends of the attached rod of high-strength magnetic are separately fixed on two inner side-walls of inclination runner, and inclination runner inlet connects the outlet of filtration vessel lower end.
5, cycling utilization of wastewater device as claimed in claim 1 is characterized in that: described stirring pulp storage tank comprises pulp storage tank body and stirring rake, and stirring rake is installed in the pulp storage tank body.
6, cycling utilization of wastewater device as claimed in claim 1 is characterized in that: described recovery agitated pool comprises recovery agitated pool body and stirring rake, and stirring rake is installed in and reclaims in the agitated pool body.
7, cycling utilization of wastewater device as claimed in claim 1 is characterized in that: the inlet of described pumping conduit is positioned at the first half that reclaims the agitated pool body.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN200920051388U CN201372241Y (en) | 2009-02-19 | 2009-02-19 | Waste water recycling device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN200920051388U CN201372241Y (en) | 2009-02-19 | 2009-02-19 | Waste water recycling device |
Publications (1)
Publication Number | Publication Date |
---|---|
CN201372241Y true CN201372241Y (en) | 2009-12-30 |
Family
ID=41498328
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN200920051388U Expired - Fee Related CN201372241Y (en) | 2009-02-19 | 2009-02-19 | Waste water recycling device |
Country Status (1)
Country | Link |
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CN (1) | CN201372241Y (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107939319A (en) * | 2017-12-22 | 2018-04-20 | 中地装重庆探矿机械有限公司 | A kind of aperture midge equipment |
-
2009
- 2009-02-19 CN CN200920051388U patent/CN201372241Y/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107939319A (en) * | 2017-12-22 | 2018-04-20 | 中地装重庆探矿机械有限公司 | A kind of aperture midge equipment |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20091230 Termination date: 20110219 |