阅读说明：本技术 一种环境保护用废水回收装置 (Waste water recovery device for environmental protection ) 是由 沈友良 刘建平 于 2021-11-11 设计创作，主要内容包括：本发明属于环境保护领域,具体的说是一种环境保护用废水回收装置,包括蓄水桶,所述蓄水桶的下表面活动连接有排水装置,所述排水装置内壁的下部滑动连接有弹簧支撑杆,所述弹簧支撑杆内壁的底端固定连接有离心转动机,所述加工筒内壁的中部均匀开设有贯穿口,所述加工筒内壁的中部通过贯穿口固定连接有滤管,所述滤管的数量为八根,所述滤管的一端延伸至加工筒的外部,比起静止沉淀的方式,使用该装置进行过滤废水可以加速废水的过滤时间,进而提高废水的处理效率,节约了大量的时间,该装置因为可以通过加压的方式将废水与残渣分离,所以能够将更多的废水从加工筒中挤出,出水率更高,进而节约水资源。(The invention belongs to the field of environmental protection, in particular to a waste water recovery device for environmental protection, which comprises a water storage barrel, wherein the lower surface of the water storage barrel is movably connected with a drainage device, the lower part of the inner wall of the drainage device is slidably connected with a spring supporting rod, the bottom end of the inner wall of the spring supporting rod is fixedly connected with a centrifugal rotating machine, the middle part of the inner wall of a processing barrel is uniformly provided with through holes, the middle part of the inner wall of the processing barrel is fixedly connected with filter tubes through the through holes, the number of the filter tubes is eight, one ends of the filter tubes extend to the outside of the processing barrel, compared with a static precipitation mode, the waste water filtering time can be accelerated by using the device to filter the waste water, the waste water treatment efficiency is further improved, a large amount of time is saved, and more waste water can be extruded from the processing barrel because the waste water can be separated from residues by a pressurization mode, the water yield is higher, and water resources are further saved.)

1. The utility model provides a waste water recovery unit for environmental protection, includes water storage bucket (1), its characterized in that: the lower surface of the water storage barrel (1) is movably connected with a drainage device (2), the lower part of the inner wall of the drainage device (2) is connected with a spring support rod (3) in a sliding manner, and the bottom end of the inner wall of the spring support rod (3) is fixedly connected with a centrifugal rotating machine (4);

the drainage device (2) comprises a processing barrel (6), through holes are uniformly formed in the middle of the inner wall of the processing barrel (6), filter pipes (21) are fixedly connected to the middle of the inner wall of the processing barrel (6) through the through holes, the number of the filter pipes (21) is eight, and one end of each filter pipe (21) extends to the outside of the processing barrel (6);

the processing barrel (6) comprises a hollow barrel shell (63), the lower part of the inner wall of the hollow barrel shell (63) is movably connected with an adaptive pushing disc (61), the upper surface of the adaptive pushing disc (61) is fixedly connected with a bolt rod (64), the lower part of the outer surface of the bolt rod (64) is uniformly provided with a partition plate (62), a through hole is formed in the axis of the top of the inner wall of the hollow barrel shell (63), an adaptive bolt sleeve (65) is arranged at the top of the inner wall of the hollow barrel shell (63), drainage holes are uniformly formed in the upper part of the inner wall of the hollow barrel shell (63), and the upper part of the inner cavity of the hollow barrel shell (63) is fixedly connected with a modified drainage tube (7) through the drainage holes;

repacking drainage tube (7) are including return bend shell (71), the middle part of return bend shell (71) inner wall is seted up and is had the ring grooving, there is interior slide tube (73) at the middle part of return bend shell (71) inner wall through ring grooving sliding connection, reset spring (72) have been cup jointed on the upper portion of interior slide tube (73) surface, drainage grooving (74) have evenly been seted up to the lower part of interior slide tube (73) inner wall.

2. The apparatus for recovering waste water for environmental protection according to claim 1, wherein: the top fixed connection of axle center department and spring support pole (3) of adaptation pushing tray (61) outward appearance lower part, the quantity of baffle (62) is eight, the lower surface and the upper surface fixed connection that the adaptation pushed tray (61) of baffle (62), one side of baffle (62) surface and the inner wall swing joint of hollow shell (63), the opposite side of baffle (62) surface and the lower part fixed connection of shank of bolt (64) surface, the bottom of shank of bolt (64) and the axle center department fixed connection of adaptation pushing tray (61) upper surface, the upper portion of shank of bolt (64) surface and the lower part bolted connection of adaptation bolt cover (65) inner wall, the top of adaptation bolt cover (65) surface and the axle center department fixed connection at hollow shell (63) inner wall top.

3. The apparatus for recovering waste water for environmental protection according to claim 1, wherein: the modified drainage tube (7) is four in number, the lower part of the outer surface of the elbow shell (71) is fixedly connected with the inner cavity of the hollow cylinder shell (63) through a drainage port, the bottom end of the elbow shell (71) is fixedly connected with the upper part of the inner wall of the hollow cylinder shell (63) through a bottom sleeve, the top end of the elbow shell (71) extends to the inside of the water storage barrel (1), the outer surface of the inner sliding tube (73) is slidably connected with the inner wall of the elbow shell (71), the bottom end of the inner sliding tube (73) extends to the outside of the elbow shell (71), the top end of the reset spring (72) is fixedly connected with the upper part of the outer surface of the inner sliding tube (73), the bottom end of the reset spring (72) is fixedly connected with the inner cavity of the elbow shell (71) through a ring cutting groove, the outer surface of the reset spring (72) is slidably connected with the inner wall of the elbow shell (71) through a ring cutting groove, the inner wall of the return spring (72) is connected with the upper part of the outer surface of the inner sliding pipe (73) in a sliding mode, the number of the drainage cutting grooves (74) is four, and the drainage cutting grooves (74) extend to the outer part of the inner sliding pipe (73).

4. The apparatus for recovering waste water for environmental protection according to claim 1, wherein: the water storage barrel (1) comprises a large barrel (11), a hollow shaft rod (12) is arranged inside the large barrel (11), an exhaust cover (13) is arranged at the top end of the inner wall of the hollow shaft rod (12), and a connecting side arm (5) is connected to the lower portion of the outer surface of the large barrel (11) in a sliding mode.

5. The apparatus for recovering waste water for environmental protection according to claim 4, wherein: the bottom end of the hollow shaft rod (12) is fixedly connected with the axis of the inner wall of the large drum (11), the upper portion of the inner wall of the hollow shaft rod (12) is in sliding connection with the lower portion of the outer surface of the exhaust cover (13), the number of the connecting side arms (5) is four, one side of the middle portion of the outer surface of each connecting side arm (5) is in sliding connection with the lower portion of the outer surface of the large drum (11), and one side of the lower portion of the outer surface of each connecting side arm (5) is fixedly connected with the upper portion of the outer surface of the hollow drum shell (63).

6. The apparatus for recovering waste water for environmental protection according to claim 4, wherein: fixedly connected with bottom chuck (8) are located to the axle center of cask (11) lower surface, adaptation thread groove (14) have been seted up to the axle center department of bottom chuck (8) lower surface, the top of adaptation thread groove (14) extends to the middle part of hollow shaft pole (12) inner wall.

7. The apparatus for recovering waste water for environmental protection according to claim 6, wherein: one side of the middle part of the outer surface of the connecting side arm (5) is in sliding connection with the upper part of the outer surface of the bottom end chuck (8), the upper part of the outer surface of the bolt rod (64) is in bolt connection with the inner wall of the hollow shaft rod (12) through an adaptive thread groove (14), a through hole is uniformly formed in the lower surface of the bottom end chuck (8), the top end of the elbow pipe shell (71) extends to the inside of the water storage barrel (1) through the through hole, and the outer surface of the elbow pipe shell (71) is fixedly connected with the bottom of the inner cavity of the water storage barrel (1) through the through hole.

8. The apparatus for recovering waste water for environmental protection according to claim 6, wherein: bottom chuck (8) include socket ring (81), the side of socket ring (81) evenly is provided with limiting plate (82), the bilateral symmetry of limiting plate (82) surface is provided with buffer spring area (83).

9. The apparatus for recovering waste water for environmental protection according to claim 8, wherein: connect the lower surface sliding connection of one side of side arm (5) surface and cask (11), connect the opposite side of side arm (5) surface and the inner wall sliding connection of socket ring (81), the upper surface of socket ring (81) and the axle center department fixed connection of cask (11) lower surface, the quantity of limiting plate (82) is four, the one end of limiting plate (82) and the side fixed connection of socket ring (81), the one end of buffer spring area (83) and the side fixed connection of limiting plate (82), the other end of buffer spring area (83) and the side fixed connection of connecting side arm (5).

Technical Field

The invention belongs to the field of environmental protection, and particularly relates to a waste water recovery device for environmental protection.

Background

Water is a resource on which human beings rely for survival, and countries are facing two important problems of fresh water shortage and water pollution, wherein if a large amount of sewage generated in industrial development and operation is directly discharged into the natural environment, the environment is polluted, and the phenomenon of wasting water resources also exists, so that the influence on the environment can be reduced as much as possible in the treatment of the sewage.

As is well known, water is exactly filtering at the first step of purification, but direct filtration waste water, a large amount of impurity will be piled up in the filter screen in the waste water, if purify a large amount of water, impurity is very easy just to plug up the filter screen, lead to the filter effect variation, filterable water is less, can't use in real life, so before filtering, need deposit waste water earlier, waste water is after carrying out the natural precipitation, the impurity content in the waste water can reduce greatly, and then make filtration process's realization possible, but water natural precipitation need consume a large amount of time, this purification efficiency who has seriously influenced waste water.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a wastewater recovery device for environmental protection, which solves the problem that a filtration process needs to consume a large amount of time.

(II) technical scheme

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a waste water recovery device for environmental protection, which comprises a water storage barrel, wherein the lower surface of the water storage barrel is movably connected with a drainage device, the lower part of the inner wall of the drainage device is slidably connected with a spring supporting rod, the bottom end of the inner wall of the spring supporting rod is fixedly connected with a centrifugal rotating machine, before the device is used for filtering waste water, the whole device is erected by connecting side arms at the periphery, the other ends of the connecting side arms are connected with fixed objects such as walls, then the waste water is filled into the water storage barrel, then the centrifugal rotating machine is started, and the centrifugal rotating machine controls the spring supporting rod to rotate so as to control the starting of the drainage device.

Preferably, drainage device includes a processing section of thick bamboo, the through-hole has evenly been seted up at the middle part of a processing section of thick bamboo inner wall, the middle part of a processing section of thick bamboo inner wall is through penetrating a mouthful fixedly connected with chimney filter, the quantity of chimney filter is eight, the one end of chimney filter extends to the outside of a processing section of thick bamboo.

Preferably, the processing section of thick bamboo includes hollow shell, the lower part swing joint of hollow shell inner wall has the adaptation to push away the dish, the adaptation pushes away the last fixed surface of dish and is connected with the shank of bolt, the lower part of shank of bolt surface evenly is provided with the baffle, the axle center department at hollow shell inner wall top has seted up and has run through the mouth, the top of hollow shell inner wall is provided with the adaptation bolt cover, the drainage mouth has evenly been seted up on the upper portion of hollow shell inner wall, the drainage mouth fixedly connected with repacking drainage tube is passed through on the upper portion of hollow shell inner chamber, just before beginning to work, and the top of shank of bolt extends to the outside of hollow shell through the adaptation bolt cover, and the adaptation pushes away the dish and is located the middle part of hollow shell inner wall, and the inside waste water of retaining bucket can flow into the inside of hollow shell through the repacking drainage tube.

Preferably, the repacking drainage tube includes the return bend shell, the middle part of return bend shell inner wall is seted up there is the ring grooving, there is interior slide pipe at the middle part of return bend shell inner wall through ring grooving sliding connection, reset spring has been cup jointed on the upper portion of interior slide pipe surface, the drainage grooving has evenly been seted up to the lower part of interior slide pipe inner wall, just before beginning to carry out work, waste water need through the inside interior slide pipe of return bend shell, from the inside slide pipe of drainage grooving outflow, get into the inside of hollow shell, under normal condition, interior slide pipe keeps static under reset spring's thrust effect, and the drainage grooving is under the isolation of return bend shell inner wall, and waste water can't flow out interior slide pipe, so the repacking drainage tube is in closed condition this moment.

Preferably, the axial center of the lower part of the outer surface of the adaptive pushing disc is fixedly connected with the top end of the spring supporting rod, the number of the partition plates is eight, the lower surface of each partition plate is fixedly connected with the upper surface of the adaptive pushing disc, one side of the outer surface of each partition plate is movably connected with the inner wall of the hollow cylinder shell, the other side of the outer surface of each partition plate is fixedly connected with the lower part of the outer surface of the bolt rod, the bottom end of the bolt rod is fixedly connected with the axial center of the upper surface of the adaptive pushing disc, the upper part of the outer surface of the bolt rod is connected with the lower part of the inner wall of the adaptive bolt sleeve, the top of the outer surface of the adaptive bolt sleeve is fixedly connected with the axial center of the top of the inner wall of the hollow cylinder shell, after the device is started, the centrifugal rotating machine controls the adaptive pushing disc to rotate anticlockwise through the spring supporting rod, the bolt rod also rotates anticlockwise along with the adaptive pushing disc in the anticlockwise rotating process, and the outer surface of the bolt rod slides downwards through the adaptive bolt sleeve, the adaptive push disc also spirally descends under the thrust action of the bolt rod, the internal space of the hollow cylindrical shell is gradually increased, the air pressure in the hollow cylindrical shell is gradually reduced, in order to balance the air pressure in the hollow cylindrical shell, the hollow cylindrical shell needs to be pumped from the outside through the filter tube, the hollow cylindrical shell needs to be pumped from the inside of the water storage barrel through the modified drainage tube, and then the internal pressure is balanced; when the water absorption of the processing cylinder is finished, the centrifugal rotating machine controls the adaptive pushing disc to rotate clockwise through the spring supporting rod, the bolt rod also rotates clockwise in the process of the clockwise rotation of the adaptive pushing disc, the outer surface of the bolt rod spirally rises through the adaptive bolt sleeve, the adaptive pushing disc also spirally rises under the thrust action of the bolt rod, the inner space of the hollow cylinder shell is gradually reduced, the air pressure in the hollow cylinder shell is gradually increased, in order to balance the air pressure in the hollow cylinder shell, the hollow cylinder shell needs to discharge the gas and the waste water in the hollow cylinder shell to the outside, the inner sliding pipe cannot slide out of the elbow shell under the action of upward pressure, so the modified drainage pipe is in a closed state, the gas and the waste water in the hollow cylinder shell cannot be discharged to the outside only through the filter pipe, the waste water is extruded from the filter pipe under the action of the air pressure, the filtering work is finished, and after the waste water is filtered, when the centrifugal rotating machine controls the adaptive pushing disc to rotate clockwise to the highest point through the spring supporting rod, the centrifugal rotating machine rotates anticlockwise, and at the moment, external air pressure enters the hollow cylindrical shell through the filter pipe, so that residues in the filter pipe are blown into the hollow cylindrical shell, and the filter pipe is dredged to prevent blockage; along with the repeated suction filtration of centrifugal rotary machine, the inside waste water of vat is consumed and is accomplished, and the waste water after the filtration passes through the chimney filter and discharges the outside of a processing section of thick bamboo and wait for subsequent processing, and the solid residue in the waste water remains the upper surface of adaptation pushing tray, through dividing equally of baffle, prevents the residue caking.

Preferably, the number of the modified drainage tubes is four, the lower part of the outer surface of the elbow shell is fixedly connected with the inner cavity of the hollow cylinder shell through a drainage port, the bottom end of the elbow shell is fixedly connected with the upper part of the inner wall of the hollow cylinder shell through a bottom sleeve, the top end of the elbow shell extends into the water storage barrel, the outer surface of the inner sliding tube is slidably connected with the inner wall of the elbow shell, the bottom end of the inner sliding tube extends to the outside of the elbow shell, the top end of the return spring is fixedly connected with the upper part of the outer surface of the inner sliding tube, the bottom end of the return spring is fixedly connected with the inner cavity of the elbow shell through an annular cutting groove, the outer surface of the return spring is slidably connected with the inner wall of the elbow shell through an annular cutting groove, the inner wall of the return spring is slidably connected with the upper part of the outer surface of the inner sliding tube, the number of the drainage cutting grooves is four, and the drainage cutting grooves extend to the outside of the inner sliding tube, when the hollow cylinder shell pumps water from the interior of the water storage barrel through the modified drainage tube, the inner sliding tube is pushed downwards by pressure, the bottom end of the inner sliding tube extends out of the elbow shell at the moment, the drainage cutting groove loses the isolation effect of the inner wall of the elbow shell, wastewater is discharged from the drainage cutting groove of the inner sliding tube to the outside and enters the upper portion of the hollow cylinder shell, and is finally stored on the upper portion of the adaptive pushing disc, at the moment, the interior of the hollow cylinder shell is filled with a large amount of wastewater and gas, and the gas is positioned on the upper portion of the wastewater, the water absorption process of the processing cylinder is completed, after the water absorption of the processing cylinder is completed, the centrifugal rotating machine stops working, after the interior of the processing cylinder is balanced with the external air pressure, the inner sliding tube is not influenced by the air pressure any more, the compressed reset spring resets to push the inner sliding tube upwards, the bottom end of the inner sliding tube is retracted into the elbow shell, and the drainage cutting groove stops draining under the isolation effect of the inner wall of the elbow shell.

Preferably, the water storage barrel comprises a large barrel, a hollow shaft lever is arranged inside the large barrel, an exhaust cover is arranged at the top end of the inner wall of the hollow shaft lever, and a connecting side arm is connected to the lower part of the outer surface of the large barrel in a sliding manner.

Preferably, the bottom end of the hollow shaft rod is fixedly connected with the axis of the inner wall of the large round barrel, the upper part of the inner wall of the hollow shaft rod is connected with the lower part of the outer surface of the exhaust cover in a sliding manner, the number of the connecting side arms is four, one side of the middle part of the outer surface of each connecting side arm is connected with the lower part of the outer surface of the large round barrel in a sliding manner, and one side of the lower part of the outer surface of each connecting side arm is fixedly connected with the upper part of the outer surface of the hollow barrel shell.

Preferably, the axle center department fixedly connected with bottom chuck of big circular drum lower surface, the adaptation thread groove has been seted up to the axle center department of bottom chuck lower surface, the top of adaptation thread groove extends to the middle part of hollow axostylus axostyle inner wall.

Preferably, one side of the middle part of the outer surface of the connecting side arm is in sliding connection with the upper part of the outer surface of the bottom chuck, the upper part of the outer surface of the bolt rod is in bolted connection with the inner wall of the hollow shaft rod through an adaptive thread groove, a through hole is uniformly formed in the lower surface of the bottom chuck, the top end of the elbow pipe shell extends to the inside of the water storage barrel through the through hole, and the outer surface of the elbow pipe shell is fixedly connected with the bottom of the inner cavity of the water storage barrel through the through hole.

Preferably, the bottom chuck includes the socket ring, the side of socket ring evenly is provided with the limiting plate, the bilateral symmetry of limiting plate surface is provided with the buffer spring area.

Preferably, one side of the outer surface of the connecting side arm is slidably connected with the lower surface of the large round barrel, the other side of the outer surface of the connecting side arm is slidably connected with the inner wall of the socket ring, the upper surface of the socket ring is fixedly connected with the axis of the lower surface of the large round barrel, the number of the limiting plates is four, one end of each limiting plate is fixedly connected with the side surface of the socket ring, one end of each buffer spring belt is fixedly connected with the side surface of each limiting plate, the other end of each buffer spring belt is fixedly connected with the side surface of the connecting side arm, and the connecting side arm is inserted into the gap between the socket ring and the large round barrel, so that the connecting side arm lifts the large round barrel upwards, the outer surface of the connecting side arm can slide relative to the outer surface of the large round barrel, and the large round barrel tends to rotate due to the action of friction force in the process that the top end of the bolt rod is gradually inserted into the adaptive thread groove, the connecting side arm can slightly slip from the outer surface of the large round barrel and is buffered and positioned through the buffer spring belts on the two sides, under the protection effect of the limiting plate, the connecting side arm cannot break away from a gap between the socket ring and the large round barrel due to slipping, so that the vibration force applied to the connecting side arm is obviously reduced and hardly influenced, the connecting side arm with the supporting effect is stable, and the large round barrel is relatively stable.

The invention has the following beneficial effects:

1. because the device adopts the wastewater treatment technology of suction filtration formula, compare the mode of static sediment, use the device to filter waste water can accelerate the filter time of waste water, and then improve the treatment effeciency of waste water, practiced thrift a large amount of time.

2. After the waste water after the sediment is filtered for a period of time, part of the waste water can not be filtered and is treated together with the residues, so that the purification rate of the waste water is lowered.

3. The difficult filtration of mixed liquid of waste water and residue, because the residue in this kind of mixed liquid filters, direct filtration probably makes relevant filtration system the jam problem appear, seriously influence filtering capability, after waste water filters, the inside of chimney still can remain the residue, the chimney filter can be stopped up to these residues, influence the filter effect, however, when the centrifugal rotary machine passes through spring support pole control adaptation pushing tray clockwise turning to the peak, the centrifugal rotary machine anticlockwise rotation again, outside atmospheric pressure passes through the inside that the chimney filter got into hollow shell, thereby blow into hollow shell with the residue of chimney filter inside in, the mediation chimney filter prevents to block up, the service life of device has been improved, maintenance work has been reduced.

4. Residue after filtering remains in processing apparatus's inside, because the residue has stronger pollution nature usually, artifical direct processing is very difficult, and in the device, along with centrifugal rotary machine's repeated suction filtration, the inside waste water of big drum is consumed and is accomplished, the outside that the waste water after filtering discharged to the processing section of thick bamboo through the chimney filter waits subsequent processing, solid residue in the waste water remains the upper surface that the adaptation pushed away the dish, equally divide through the baffle, prevent the residue caking, if want to discharge the device with the residue, centrifugal rotary machine anticlockwise rotation, the outer surface that pushes away the dish up to the adaptation breaks away from the inner wall of hollow shell, the residue that the adaptation pushed away the dish top this moment has lost blockking of hollow shell, break away from the adaptation under the effect of centrifugal force and push away from the dish and get rid of the outside, and then accomplish the cleaning work of residue.

5. The device can change suitable connecting side arm and be connected water storage bucket and drainage device stability according to the actual service environment, so the device can directly be connected with the waste water outlet, and then has saved the transportation of waste water.

6. In order to prevent the water storage barrel from blocking the bolt rod from moving upwards, in the process that the centrifugal rotating machine controls the adaptive pushing disc to rotate clockwise through the spring supporting rod, the top end of the bolt rod is gradually inserted into the adaptive thread groove and then spirally rises along the adaptive thread groove, because the height of the water storage barrel and the height of the processing barrel are uncertain in actual use, the adaptation degree of the bolt rod and the adaptive thread groove is not high, in the process that the top end of the bolt rod is gradually inserted into the adaptive thread groove, the bolt rod and the water storage barrel can shake, once the water storage barrel shakes violently, wastewater in the water storage barrel can be sprayed to the external pollution environment, because the connecting side arm is inserted into the gap between the socket ring and the large barrel, the connecting side arm lifts the large barrel upwards, the outer surface of the connecting side arm can slide relative to the outer surface of the large barrel, and in the process that the top end of the bolt rod is gradually inserted into the adaptive thread groove, the cask has the pivoted trend because of the effect of frictional force, and connect the side arm can take place slight skidding with big cask surface, and buffer spring area through both sides is cushioned and is fixed a position, under the guard action of limiting plate, it can not break away from the clearance of socket ring and cask because of skidding to connect the side arm, so the vibrations power that connects the side arm and receive obviously descends, hardly influenced, and the connection side arm that plays supporting role is stable, big cask is also relatively stable to get off, so the water storage bucket amplitude of rocking obviously reduces, prevent that the inside waste water of water storage bucket from spilling external polluted environment.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a partial cross-sectional view of the present invention;

FIG. 3 is a cross-sectional view of a process cartridge of the present invention;

FIG. 4 is a cross-sectional view of a modified drain of the present invention;

FIG. 5 is a schematic view of the construction of the reservoir of the present invention;

fig. 6 is an enlarged partial schematic view of the bottom end chuck of the present invention.

In the figure: 1. a water storage barrel; 2. a drainage device; 21. a filter tube; 3. a spring support bar; 4. a centrifugal rotating machine; 5. connecting the side arms; 6. processing the cylinder; 11. a large drum; 12. a hollow shaft; 13. an exhaust cover; 14. adapting the thread groove; 61. adapting the push disc; 62. a partition plate; 63. a hollow cylindrical shell; 64. a bolt shank; 65. adapting the bolt sleeve; 7. modifying a drainage tube; 71. a bent pipe housing; 72. a return spring; 73. an inner slide tube; 74. a drainage cutting groove; 8. a bottom end chuck; 81. a socket ring; 82. a limiting plate; 83. a buffer spring band.

Detailed Description

The invention relates to an environment protection wastewater recovery device which uses figures 1-6, and comprises a water storage barrel 1, wherein the lower surface of the water storage barrel 1 is movably connected with a drainage device 2, the lower part of the inner wall of the drainage device 2 is slidably connected with a spring support rod 3, the bottom end of the inner wall of the spring support rod 3 is fixedly connected with a centrifugal rotating machine 4, before the device is used for filtering wastewater, the whole device is erected by connecting side arms 5 on the periphery, the other ends of the connecting side arms 5 are connected with fixed objects such as walls, then the wastewater is filled into the water storage barrel 1, then the centrifugal rotating machine 4 is started, the centrifugal rotating machine 1 controls the spring support rod 3 to rotate, and further the drainage device 2 is controlled to start.

Drainage device 2 has evenly seted up at the middle part of 6 inner walls of a processing section of thick bamboo including a processing section of thick bamboo 6 and has run through the mouth, and the middle part of 6 inner walls of a processing section of thick bamboo is through running through a mouthful fixedly connected with chimney filter 21, and the quantity of chimney filter 21 is eight, and the one end of chimney filter 21 extends to the outside of a processing section of thick bamboo 6.

A processing section of thick bamboo 6 includes hollow shell 63, the lower part swing joint of hollow shell 63 inner wall has the adaptation to push away set 61, the upper surface fixed connection that the adaptation pushed away set 61 has shank of bolt 64, the lower part of shank of bolt 64 surface evenly is provided with baffle 62, the axle center department at hollow shell 63 inner wall top has seted up through the mouth, the top of hollow shell 63 inner wall is provided with adaptation bolt cover 65, the drainage mouth has evenly been seted up on the upper portion of hollow shell 63 inner wall, drainage mouth fixedly connected with repacking drainage tube 7 is passed through on the upper portion of hollow shell 63 inner chamber, just begin to carry out before work, the top of shank of bolt 64 extends to the outside of hollow shell 63 through adaptation bolt cover 65, adaptation pushes away the set 61 and is located the middle part of hollow shell 63 inner wall, the inside waste water of water storage bucket 1 can flow in the inside of hollow shell 63 through repacking drainage tube 7.

The modified drainage tube 7 comprises a bent tube shell 71, the middle part of the inner wall of the bent tube shell 71 is provided with an annular cutting groove, the middle part of the inner wall of the bent tube shell 71 is connected with an inner sliding tube 73 in a sliding way through the annular cutting groove, the upper part of the outer surface of the inner sliding tube 73 is sleeved with a return spring 72, the lower part of the inner wall of the inner sliding tube 73 is uniformly provided with a drainage cutting groove 74, before the modified drainage tube starts to work, the wastewater needs to pass through the inner sliding tube 73 in the bent tube shell 71, flows out of the inner sliding tube 73 from the drainage cutting groove 74 and enters the inside of the hollow cylinder shell 63, in a normal state, the inner sliding tube 73 is kept static under the thrust action of the return spring 72, the wastewater cannot flow out of the inner sliding tube 73 under the isolation action of the inner wall of the bent tube shell 71 by the drainage cutting groove 74, so that the modified drainage tube 7 is in a closed state at the moment, because the device adopts a suction filtration type wastewater treatment process, compared with a static precipitation mode, the filtering time of the wastewater can be accelerated by using the device, and then improve the treatment effeciency of waste water, practiced thrift a large amount of times, waste water after the sediment is after carrying out a period of filtration treatment, it can not filter to have partial waste water, and then handles with the residue together, makes the purification rate of waste water step-down, and the device can extrude more waste water from processing section of thick bamboo 63 because can separate waste water and residue through the pressurized mode, and the water yield is higher, and then the water economy resource.

The axial center of the lower part of the outer surface of the adaptive pushing disc 61 is fixedly connected with the top end of the spring supporting rod 3, the number of the partition plates 62 is eight, the lower surface of the partition plate 62 is fixedly connected with the upper surface of the adaptive pushing disc 61, one side of the outer surface of the partition plate 62 is movably connected with the inner wall of the hollow cylindrical shell 63, the other side of the outer surface of the partition plate 62 is fixedly connected with the lower part of the outer surface of the bolt rod 64, the bottom end of the bolt rod 64 is fixedly connected with the axial center of the upper surface of the adaptive pushing disc 61, the upper part of the outer surface of the bolt rod 64 is connected with the lower part of the inner wall of the adaptive bolt sleeve 65, the top of the outer surface of the adaptive bolt sleeve 65 is fixedly connected with the axial center of the top of the inner wall of the hollow cylindrical shell 63, after the device is started, the centrifugal rotating machine 4 controls the adaptive pushing disc 61 to rotate anticlockwise through the spring supporting rod 3, in the process of the anticlockwise rotation of the adaptive pushing disc 61, the bolt rod 64 also rotates anticlockwise along with the bolt sleeve, the outer surface of the adaptive bolt sleeve 64 slides downwards spirally through the adaptive bolt sleeve 65, the adaptive push disc 61 also spirally descends under the thrust action of the bolt rod 64, the internal space of the hollow cylindrical shell 63 is gradually increased, the air pressure inside the hollow cylindrical shell 63 is gradually reduced, in order to balance the air pressure inside the hollow cylindrical shell 63, the hollow cylindrical shell 63 needs to be pumped from the outside through the filter tube 21, the hollow cylindrical shell 63 needs to be pumped from the inside of the water storage bucket 1 through the modified drainage tube 7, and then the internal pressure is balanced; after the water absorption of the processing cylinder 6 is finished, the centrifugal rotating machine 4 controls the adaptive pushing disc 61 to rotate clockwise through the spring supporting rod 3, the bolt rod 64 rotates clockwise along with the bolt rod 64 in the process that the adaptive pushing disc 61 rotates clockwise, the outer surface of the bolt rod 64 is screwed up through the adaptive bolt sleeve 65, the adaptive pushing disc 61 is also screwed up under the thrust action of the bolt rod 64, the inner space of the hollow cylinder shell 63 is gradually reduced, the air pressure inside the hollow cylinder shell 63 is gradually increased, in order to balance the air pressure inside the hollow cylinder shell 63, the hollow cylinder shell 63 needs to discharge the air and the waste water inside to the outside, the inner sliding pipe 73 cannot slide out of the elbow shell 71 under the action of the upward pressure, so the modified drainage pipe 7 is in a closed state, the air and the waste water inside the hollow cylinder shell 63 cannot be discharged to the outside only through the filter pipe 21, and the waste water is extruded from the filter pipe 21 under the action of the air pressure, then the filtering work is completed, the mixed liquid of the waste water and the residue is difficult to filter, because the residue in the mixed liquid is filtered, the direct filtering possibly causes the blockage problem of the related filtering system, the filtering function is seriously influenced, after the waste water is filtered, the residue can still remain in the filtering pipe 21, the filtering pipe 21 can be blocked by the residue, and the filtering effect is influenced, however, when the centrifugal rotating machine 4 controls the adaptive pushing disc 61 to rotate clockwise to the highest point through the spring supporting rod 3, the centrifugal rotating machine 4 rotates anticlockwise again, at the moment, the external air pressure enters the hollow cylindrical shell 63 through the filtering pipe 21, thereby the residue in the filtering pipe 21 is blown into the hollow cylindrical shell 63, the filtering pipe 21 is dredged to prevent the blockage, the service life of the device is prolonged, the maintenance work is reduced, however, when the centrifugal rotating machine 4 controls the adaptive pushing disc 61 to rotate clockwise to the highest point through the spring supporting rod 3, the centrifugal rotating machine 4 rotates anticlockwise again, at the moment, external air pressure enters the hollow cylindrical shell 63 through the filter tube 21, so that residues in the filter tube 21 are blown into the hollow cylindrical shell 63, and the filter tube 21 is dredged to prevent blockage; along with the repeated suction filtration of the centrifugal rotary machine 4, the waste water in the large barrel 11 is consumed, the filtered waste water is discharged to the outside of the processing barrel 61 through the filter pipe 21 to wait for subsequent treatment, solid residues in the waste water remain on the upper surface of the adaptive push disc 61 and are evenly divided through the partition plate 61 to prevent residues from caking, if the residues are discharged out of the device, the centrifugal rotary machine 4 rotates anticlockwise until the outer surface of the adaptive push disc 61 is separated from the inner wall of the hollow barrel shell 63, the residues above the adaptive push disc 61 lose the blockage of the hollow barrel shell 63 at the moment, the residues are separated from the adaptive push disc 61 under the action of centrifugal force and are thrown to the outside, and then the residue cleaning work is completed.

The number of the modified drainage tubes 7 is four, the lower part of the outer surface of the elbow shell 71 is fixedly connected with the inner cavity of the hollow cylinder shell 63 through a drainage port, the bottom end of the elbow shell 71 is fixedly connected with the upper part of the inner wall of the hollow cylinder shell 63 through a bottom end sleeve, the top end of the elbow shell 71 extends into the water storage barrel 1, the outer surface of the inner sliding tube 73 is slidably connected with the inner wall of the elbow shell 71, the bottom end of the inner sliding tube 73 extends to the outside of the elbow shell 71, the top end of the return spring 72 is fixedly connected with the upper part of the outer surface of the inner sliding tube 73, the bottom end of the return spring 72 is fixedly connected with the inner cavity of the elbow shell 71 through an annular cutting groove, the outer surface of the return spring 72 is slidably connected with the inner wall of the elbow shell 71 through an annular cutting groove, the inner wall of the return spring 72 is slidably connected with the upper part of the outer surface of the inner sliding tube 73, the number of the drainage cutting grooves 74 is four, and the drainage cutting grooves 74 extend to the outside of the inner sliding tube 73, when the hollow cylindrical shell 63 is used for pumping water from the interior of the water storage barrel 1 through the modified drainage tube 7, the inner sliding tube 73 is pushed downwards by pressure, the bottom end of the inner sliding tube 73 extends out of the elbow shell 71, the drainage cutting groove 74 loses the isolation effect of the inner wall of the elbow shell 71, waste water is discharged from the drainage cutting groove 74 of the inner sliding tube 73 to the outside to enter the upper part of the hollow cylindrical shell 63 and is finally stored on the upper part of the adaptive pushing disc 61, and the interior of the hollow cylindrical shell 63 is filled with a large amount of waste water and gas, and the gas is positioned at the upper part of the waste water to finish the water absorption process of the processing cylinder 6, after the water absorption of the processing cylinder 6 is finished, the centrifugal rotating machine 4 stops working, when the interior of the processing cylinder 6 is balanced with the external air pressure, the inner sliding tube 73 is not influenced by the air pressure any more, the compressed return spring 72 is reset at the moment, the inner sliding tube 73 is pushed upwards, the bottom end of the inner sliding tube 73 is retracted into the elbow pipe shell 71, and the drainage groove 74 stops drainage under the isolation action of the inner wall of the elbow pipe shell 71.

The water storage barrel 1 comprises a large barrel 11, a hollow shaft lever 12 is arranged inside the large barrel 11, an exhaust cover 13 is arranged at the top end of the inner wall of the hollow shaft lever 12, and the lower part of the outer surface of the large barrel 11 is connected with a connecting side arm 5 in a sliding mode.

The bottom end of the hollow shaft lever 12 is fixedly connected with the axis of the inner wall of the big barrel 11, the upper part of the inner wall of the hollow shaft lever 12 is connected with the lower part of the outer surface of the exhaust cover 13 in a sliding way, the number of the connecting side arms 5 is four, one side of the middle part of the outer surface of the connecting side arm 5 is connected with the lower part of the outer surface of the big barrel 11 in a sliding way, and one side of the lower part of the outer surface of the connecting side arm 5 is fixedly connected with the upper part of the outer surface of the hollow barrel shell 63.

The axle center department fixedly connected with bottom chuck 8 of cask 11 lower surface, adaptation thread groove 14 has been seted up to the axle center department of bottom chuck 8 lower surface, and the top of adaptation thread groove 14 extends to the middle part of hollow shaft 12 inner wall.

Connect one side at 5 surface middle parts of side arm and the upper portion sliding connection of bottom chuck 8 surface, the upper portion of shank of bolt 64 surface is through the inner wall bolted connection of adaptation thread groove 14 with hollow axostylus axostyle 12, the through-hole has evenly been seted up to the lower surface of bottom chuck 8, the inside that the top of return bend shell 71 extends to water storage bucket 1 through the through-hole, the bottom fixed connection of return bend shell 71's surface through-hole and water storage bucket 1 inner chamber, the device can be according to the actual service environment, it is stably connected water storage bucket 1 and drainage device 74 to change suitable connection side arm 5, so the device can directly be connected with the waste water outlet, and then the transportation of waste water has been saved.

The bottom chuck 8 comprises a socket ring 81, a limiting plate 82 is uniformly arranged on the side surface of the socket ring 81, and buffer spring belts 83 are symmetrically arranged on the two sides of the outer surface of the limiting plate 82.

One side of the outer surface of the connecting side arm 5 is connected with the lower surface of the big barrel 11 in a sliding way, the other side of the outer surface of the connecting side arm 5 is connected with the inner wall of the inserting opening circular ring 81 in a sliding way, the upper surface of the inserting opening circular ring 81 is fixedly connected with the axle center of the lower surface of the big barrel 11, the number of the limit plates 82 is four, one end of each limit plate 82 is fixedly connected with the side surface of the inserting opening circular ring 81, one end of each buffer spring belt 83 is fixedly connected with the side surface of the limit plate 82, the other end of each buffer spring belt 83 is fixedly connected with the side surface of the connecting side arm 5, in order to prevent the water storage barrel 1 from blocking the upward movement of the bolt rod 64, in the process that the centrifugal rotating machine 4 controls the adapting push disc 61 to rotate clockwise through the spring support rod 3, the top end of the bolt rod 64 is gradually inserted into the adapting thread groove 14 and then spirally ascends along the adapting thread groove 14, because the height of the water storage barrel 1 is uncertain with the height of the processing barrel 6 in practical use, therefore, the degree of adaptation between the bolt rod 64 and the adaptation thread groove 14 is not high, the bolt rod 64 and the water storage barrel 1 can shake in the process that the top end of the bolt rod 64 is gradually inserted into the adaptation thread groove 14, once the water storage barrel 1 shakes violently, wastewater in the water storage barrel 1 can be sprinkled to the external polluted environment, because the connecting side arm 5 is inserted into the gap between the socket ring 81 and the large barrel 11, the connecting side arm 5 lifts the large barrel 11 upwards, the outer surface of the connecting side arm 5 can slide relative to the outer surface of the large barrel 11, when the top end of the bolt rod 64 is gradually inserted into the adaptation thread groove 14, the large barrel 11 tends to rotate due to the action of friction force, the connecting side arm 5 slightly slips from the outer surface of the large barrel 11, and the buffer positioning is carried out through the buffer spring belts 83 on the two sides, under the protection action of the limit plate 82, the connecting side arm 5 cannot slip from the gap between the socket ring 81 and the large barrel 11, so the shaking force that connecting side arm 5 received obviously descends, is hardly influenced, and the connecting side arm 5 who plays the supporting role is stable, and big cask 11 is just also relatively stable gets off, so water storage bucket 1 rocks the range and obviously reduces, prevents that the inside waste water of water storage bucket 1 from spilling external polluted environment.

The specific working process is as follows:

before the device is used for filtering wastewater, the connecting side arms 5 on the periphery erect the whole device, the other ends of the connecting side arms 5 are connected with fixed objects such as a wall, then the wastewater is poured into the water storage barrel 1, then the centrifugal rotating machine 4 is started, the centrifugal rotating machine 1 controls the spring supporting rod 3 to rotate, and then the drainage device 2 is controlled to start.

Just before the operation, the top end of the bolt rod 64 extends to the outside of the hollow cylindrical shell 63 through the adaptive bolt sleeve 65, the adaptive push disc 61 is located in the middle of the inner wall of the hollow cylindrical shell 63, the wastewater in the water storage barrel 1 can flow into the hollow cylindrical shell 63 through the modified drainage tube 7, however, the wastewater needs to flow out of the inner sliding tube 73 from the drainage slot 74 through the inner sliding tube 73 in the elbow shell 71 and enters the inside of the hollow cylindrical shell 63, in a normal state, the inner sliding tube 73 is kept static under the thrust action of the return spring 72, and the wastewater cannot flow out of the inner sliding tube 73 under the isolation action of the inner wall of the elbow shell 71 through the drainage slot 74, so the modified drainage tube 7 is in a closed state at the moment.

After the device is started, the centrifugal rotating machine 4 controls the adaptive pushing disc 61 to rotate anticlockwise through the spring supporting rod 3, the bolt rod 64 rotates anticlockwise in the process of anticlockwise rotation of the adaptive pushing disc 61, the outer surface of the bolt rod 64 slides downwards in a spiral mode through the adaptive bolt sleeve 65, the adaptive pushing disc 61 also descends in a spiral mode under the thrust action of the bolt rod 64, the inner space of the hollow cylindrical shell 63 is gradually increased, the air pressure inside the hollow cylindrical shell 63 is gradually reduced, in order to balance the air pressure inside the hollow cylindrical shell 63, the hollow cylindrical shell 63 needs to be pumped from the outside through the filter tube 21, the hollow cylindrical shell 63 needs to be pumped from the inside of the water storage barrel 1 through the modified drainage tube 7, and then the pressure inside is balanced; when the hollow cylindrical shell 63 pumps water from the interior of the water storage barrel 1 through the modified drainage tube 7, the inner sliding tube 73 is pushed downwards by pressure, the bottom end of the inner sliding tube 73 extends out of the elbow shell 71, the drainage cutting groove 74 loses the isolation effect of the inner wall of the elbow shell 71, waste water is discharged from the drainage cutting groove 74 of the inner sliding tube 73 to the outside, enters the upper part of the hollow cylindrical shell 63 and is finally stored on the upper part of the adaptive pushing disc 61, at the moment, the hollow cylindrical shell 63 is filled with a large amount of waste water and gas, and the gas is positioned on the upper part of the waste water, so that the water suction process of the processing cylinder 6 is completed; after the water absorption of the processing cylinder 6 is finished, the centrifugal rotating machine 4 stops working, when the internal pressure of the processing cylinder 6 is balanced with the external air pressure, the internal sliding pipe 73 is not acted by the air pressure any more, the compressed return spring 72 is reset at the moment, the internal sliding pipe 73 is pushed upwards, the bottom end of the internal sliding pipe 73 is retracted into the elbow pipe shell 71, and the drainage cutting groove 74 stops drainage under the isolation effect of the inner wall of the elbow pipe shell 71.

After the water absorption of the processing cylinder 6 is finished, the centrifugal rotating machine 4 controls the adaptive pushing disc 61 to rotate clockwise through the spring supporting rod 3, the bolt rod 64 rotates clockwise along with the bolt rod 64 in the process that the adaptive pushing disc 61 rotates clockwise, the outer surface of the bolt rod 64 is screwed up through the adaptive bolt sleeve 65, the adaptive pushing disc 61 is also screwed up under the thrust action of the bolt rod 64, the inner space of the hollow cylinder shell 63 is gradually reduced, the air pressure inside the hollow cylinder shell 63 is gradually increased, in order to balance the air pressure inside the hollow cylinder shell 63, the hollow cylinder shell 63 needs to discharge the air and the waste water inside to the outside, the inner sliding pipe 73 cannot slide out of the elbow shell 71 under the action of the upward pressure, so the modified drainage pipe 7 is in a closed state, the air and the waste water inside the hollow cylinder shell 63 cannot be discharged to the outside only through the filter pipe 21, and the waste water is extruded from the filter pipe 21 under the action of the air pressure, further completing the filtering work; after the wastewater is filtered, residues may remain in the filter tube 21, and the residues may block the filter tube 21, thereby affecting the filtering effect, however, when the centrifugal rotating machine 4 controls the adaptive push disc 61 to rotate clockwise to the highest point through the spring support rod 3, the centrifugal rotating machine 4 rotates counterclockwise again, at this time, the external air pressure enters the inside of the hollow cylindrical shell 63 through the filter tube 21, thereby blowing the residues in the filter tube 21 into the hollow cylindrical shell 63, and dredging the filter tube 21 to prevent blockage.

Along with the repeated suction filtration of the centrifugal rotary machine 4, the waste water in the large barrel 11 is consumed, the filtered waste water is discharged to the outside of the processing barrel 61 through the filter pipe 21 to wait for subsequent treatment, solid residues in the waste water remain on the upper surface of the adaptive push disc 61 and are evenly divided through the partition plate 61 to prevent residues from caking, if the residues are discharged out of the device, the centrifugal rotary machine 4 rotates anticlockwise until the outer surface of the adaptive push disc 61 is separated from the inner wall of the hollow barrel shell 63, the residues above the adaptive push disc 61 lose the blockage of the hollow barrel shell 63 at the moment, the residues are separated from the adaptive push disc 61 under the action of centrifugal force and are thrown to the outside, and then the residue cleaning work is completed.

In order to prevent the water storage barrel 1 from blocking the bolt rod 64 from moving upwards, in the process that the centrifugal rotating machine 4 controls the adaptive pushing disc 61 to rotate clockwise through the spring supporting rod 3, the top end of the bolt rod 64 is gradually inserted into the adaptive threaded groove 14 and then spirally rises along the adaptive threaded groove 14, because the height of the water storage barrel 1 and the height of the processing barrel 6 are uncertain in actual use, the adaptation degree of the bolt rod 64 and the adaptive threaded groove 14 is not high, in the process that the top end of the bolt rod 64 is gradually inserted into the adaptive threaded groove 14, the bolt rod 64 and the water storage barrel 1 can shake, once the water storage barrel 1 shakes violently, wastewater in the water storage barrel 1 can be sprayed to the external polluted environment.

Because the connecting side arm 5 is inserted into the gap between the socket ring 81 and the large barrel 11, the connecting side arm 5 lifts the large barrel 11 upwards, and the outer surface of the connecting side arm 5 can slide relative to the outer surface of the large barrel 11, so that when the top end of the bolt rod 64 is gradually inserted into the adaptive thread groove 14, the large barrel 11 tends to rotate due to the action of friction force, the connecting side arm 5 slightly slips from the outer surface of the large barrel 11, and the buffering and positioning are carried out through the buffering spring belts 83 on the two sides, under the protection action of the limiting plate 82, the connecting side arm 5 cannot be separated from the gap between the socket ring 81 and the large barrel 11 due to slipping, so that the vibration force borne by the connecting side arm 5 is obviously reduced and hardly influenced, the connecting side arm 5 with the supporting function is stable, the large barrel 11 is relatively stabilized, and the shaking amplitude of the water storage barrel 1 is obviously reduced, prevent the waste water in the water storage barrel 1 from spilling to the external environment.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.