CN103088898B - Drainage device for stirring blender pond - Google Patents
Drainage device for stirring blender pond Download PDFInfo
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- CN103088898B CN103088898B CN201310039124.6A CN201310039124A CN103088898B CN 103088898 B CN103088898 B CN 103088898B CN 201310039124 A CN201310039124 A CN 201310039124A CN 103088898 B CN103088898 B CN 103088898B
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Abstract
The invention discloses a drainage device for a stirring blender pond. The drainage device is sequentially communicated with a water-inlet hopper, a sand storage tank, a water guide pipe, a pipeline pump, a water supplying pipe and a water-outlet hopper. A water drinking cavity is arranged at the top of the sand storage tank, a water-inlet end of the water guide pipe is located in the water drinking cavity, and the water-outlet end is communicated with the pipeline pump. The drainage device for the stirring blender pond can greatly reduce sand and sludge entering the pipeline pump, reduce damage to the pipeline pump, and prolongs service life of the pipeline pump.
Description
Technical field
The present invention relates to dewatering installation, especially a kind of dewatering installation for the mixer pool.
Background technology
Owing to containing sand and mud in the mixer pool, existing various suction pumps are very easy to damaged.Through technician, check discovery, the main cause that causes damage is in tubing pump, to have sucked a large amount of sands.Once and suction pump is damaged, just need to suspend to produce, the suction pump more renewing, has caused very large loss to factory.
Summary of the invention
Goal of the invention: the object of the present invention is to provide a kind of dewatering installation, reduce and enter sand in tubing pump, extend the application life of tubing pump.
Technical scheme: the dewatering installation for the mixer pool of the present invention, comprises water inlet bucket, sand tank, aqueduct, tubing pump, the flow pipe being communicated with successively and go out bucket; The top of described sand tank is provided with drinking-water chamber; The water inlet end of described aqueduct is positioned at described drinking-water chamber, and water side is communicated with tubing pump.
The level height of described tubing pump is not higher than the level height at described sand tank top, and the level height of described water inlet bucket is not less than the level height at described sand tank top, described in go out the level height of bucket higher than the level height of described water inlet bucket.
Described water inlet bucket is provided with the first pore and the second pore; Describedly go out bucket and be provided with the 3rd pore, described drinking-water chamber is provided with the 4th pore; Described the 3rd pore and the first pore, described the 4th pore is communicated with the second pore, or described the 3rd pore is communicated with the second pore, and described the 4th pore is communicated with the first pore.
Described the 3rd pore is communicated with tracheae, and the level height of tracheae end is not less than into the level height of water bucket.
The described volume that goes out bucket is more than or equal to the volume sum in described water inlet bucket and drinking-water chamber.
Described water inlet bucket is communicated with by communicating pipe with sand tank, and the end of communicating pipe is positioned at the below, inside of sand tank.
The water inlet end of described flow pipe is communicated with described tubing pump, and water side is communicated with the bottom that goes out bucket.
Described tubing pump is positioned at the bottom in described sand tank outside.Described tubing pump and described aqueduct removably connect, and described tubing pump and flow pipe removably connect.The described flange that is detachably connected as connects.
Beneficial effect: dewatering installation of the present invention can greatly reduce sand and the mud entering in tubing pump, reduces the damage of tubing pump, increases the service life.
Accompanying drawing explanation
Fig. 1 is structural representation of the present invention.
the specific embodiment
As shown in Figure 1, dewatering installation for the mixer pool of the present invention mainly comprises water inlet bucket 1, sand tank 2, aqueduct 3, tubing pump 4, the flow pipe 5 being communicated with successively and goes out bucket 6, sand tank 2 has a dismountable top cover 21, the outwardly formation drinking-water of the part chamber 23 of this top cover 21.The water inlet end of aqueduct 3 is positioned at drinking-water chamber, and water side is communicated with tubing pump.The water inlet end of flow pipe 5 is communicated with tubing pump, and water side is communicated with the bottom that goes out bucket 6.Water inlet bucket 1 is provided with the first pore 71, the second pore 72, goes out bucket and is provided with the 3rd pore 73, and drinking-water chamber is provided with the 4th pore 74.Described the 3rd pore is communicated with the first pore or the second pore, and the 4th pore is communicated with remaining pore.The position of tubing pump 4 is not higher than sand tank 2, and water inlet bucket 1 is not less than the top cover of sand tank, goes out the position of bucket 6 higher than water inlet bucket.The 3rd pore 73 is communicated with tracheae, and the height of tracheae end is not less than into the height of water bucket 1.The volume that goes out bucket is greater than into the volume sum in water bucket and drinking-water chamber.The end of the communicating pipe 11 of water inlet bucket and sand tank is positioned at the below, inside of sand tank.Tubing pump is positioned at the bottom in sand tank outside.
When working for the first time, first by outlet pipe 61 or the bucket of pouring water that is arranged on out bucket top to going out in bucket to pour water, until water surface elevation reaches the height of outlet pipe, the height of the second horizontal plane 102 in figure namely.Unlatching tubing pump draws water, when starting, there is part air to enter into water bucket 1, and some air enters sand tank 2, entering can be by entering out bucket the communicating pipe between pore into water bucket 1, the air that enters sand tank can be pooled in the drinking-water chamber of highest point, and enter into water bucket by pore, finally enter out bucket.When drawing water, the sand in the mixer pool and other impurity also can be drawn into sand tank, and precipitate in sand tank.Because the water inlet end of aqueduct 3 is arranged in the drinking-water chamber of highest point, thus its be drawn into through gravitational settling, the water of clarification comparatively.
After one action completes, current pour in down a chimney to sand tank from going out bucket, and the air that may exist in water inlet bucket and drinking-water chamber is all extruded, and final level face is higher than the top at water inlet bucket, be exactly the height of the first horizontal plane 101 in figure, horizontal plane is generally between the first and second horizontal planes.Owing to being all full of water in tubing pump, intake pump, thus in work afterwards without pouring water.After working repeatedly; sand in sand tank constantly accumulates; the height that may surpass communicating pipe end; stop up the delivery port of communicating pipe 11; after shutting down so somewhere; current cannot pour in down a chimney into water bucket and go out can show current water surface elevation the communicating pipe between pore on bucket, thereby are convenient to the duty that technician understands dewatering installation, by sediment ejection opening, sand are discharged in time.
In a word, because the present invention is provided with sand tank and drinking-water chamber, sand and mud major part are all deposited in sand tank, thereby make dewatering installation of the present invention can greatly reduce sand and the mud sucking in suction pump.Secondly, water inlet bucket of the present invention, sand tank, tubing pump and the setting that goes out bucket relative position can also make dewatering installation without all will pour water at every turn, have improved operating efficiency, have reduced workman's labour intensity.Again, drinking-water chamber, go out bucket and water inlet bucket is provided with pore, can make the air in device be pressed against out in bucket, thereby reduce, enter the air in tubing pump, guarantee the stable operation of tubing pump.In addition, owing to going out the PRESSURE-VOLUME RELATION in bucket, water inlet bucket and drinking-water chamber, can make to shut down rear flow backwards, extrude air, thereby make to preserve in tubing pump the state of filling water.Finally, tubing pump is positioned at below or the bottom in sand tank outside, and it is all flange connect with aqueduct and flow pipe, so very convenient replacing, maintain tubing pump.The top cover of sand tank also detachably connects with main body, facilitates workman's maintenance work.
Claims (5)
1. for the dewatering installation on the mixer pool, it is characterized in that, comprise water inlet bucket (1), sand tank (2), aqueduct (3), tubing pump (4), the flow pipe (5) being communicated with successively and go out bucket (6); The top of described sand tank (2) is provided with drinking-water chamber (23); The water inlet end of described aqueduct (3) is positioned at described drinking-water chamber (23), and water side is communicated with tubing pump;
The level height of described tubing pump (4) is not higher than the level height at described sand tank (2) top, the level height of described water inlet bucket (1) is not less than the level height at described sand tank (2) top, described in go out the level height of bucket (6) higher than the level height of described water inlet bucket (1);
Described water inlet bucket (1) is provided with the first pore (71) and the second pore (72); Describedly go out bucket (6) and be provided with the 3rd pore (73), described drinking-water chamber (23) is provided with the 4th pore (74); Described the 3rd pore (73) and the first pore (71), described the 4th pore (74) is communicated with the second pore (72), or described the 3rd pore (73) is communicated with the second pore (72), and described the 4th pore (74) is communicated with the first pore (71);
The described volume that goes out bucket (6) is more than or equal to the volume sum in described water inlet bucket (1) and drinking-water chamber (23);
Described water inlet bucket (1) is communicated with by communicating pipe (11) with sand tank (2), and the end of communicating pipe is positioned at the below, inside of sand tank.
2. the dewatering installation for the mixer pool as claimed in claim 1, is characterized in that, the water inlet end of described flow pipe (5) is communicated with described tubing pump (4), and water side is communicated with the bottom that goes out bucket (6).
3. the dewatering installation for the mixer pool as claimed in claim 1, is characterized in that, described tubing pump (4) is positioned at the bottom in described sand tank (2) outside.
4. the dewatering installation for the mixer pool as claimed in claim 3, is characterized in that, described tubing pump (4) removably connects with described aqueduct (3), and described tubing pump (4) removably connects with flow pipe (5).
5. the dewatering installation for the mixer pool as claimed in claim 4, is characterized in that, described in be detachably connected as flange and connect.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201310039124.6A CN103088898B (en) | 2013-02-01 | 2013-02-01 | Drainage device for stirring blender pond |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201310039124.6A CN103088898B (en) | 2013-02-01 | 2013-02-01 | Drainage device for stirring blender pond |
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CN103088898A CN103088898A (en) | 2013-05-08 |
CN103088898B true CN103088898B (en) | 2014-04-16 |
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CN201310039124.6A Active CN103088898B (en) | 2013-02-01 | 2013-02-01 | Drainage device for stirring blender pond |
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Family Cites Families (6)
Publication number | Priority date | Publication date | Assignee | Title |
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JPH06114294A (en) * | 1992-10-02 | 1994-04-26 | Jiro Sasaoka | Method and device for treatment of muddy water or sand and soil-containing material |
JP3975385B2 (en) * | 2000-01-07 | 2007-09-12 | 東京都 | Drainage equipment suction pipe blockage prevention device and operation method of sanding equipment |
CN201635758U (en) * | 2010-01-26 | 2010-11-17 | 邬剑明 | Grouting pond for coal mine fire prevention grouting and gel pouring |
CN201722698U (en) * | 2010-07-09 | 2011-01-26 | 许累峰 | Quick well sinking and water precipitating device |
CN202370073U (en) * | 2011-12-20 | 2012-08-08 | 鞍钢集团矿业公司 | Floating water drainage device of open pit mine stope |
CN203230029U (en) * | 2013-02-01 | 2013-10-09 | 江苏东浦管桩有限公司 | Drainage device used for mixer pond |
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2013
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Inventor after: Yan Chenghua Inventor after: Wang Fansheng Inventor before: Yan Chenghua |
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COR | Change of bibliographic data |
Free format text: CORRECT: INVENTOR; FROM: YAN CHENGHUA TO: YAN CHENGHUA WANG FANSHENG |