CN214991033U - Sediment subducts solidification water ecological remediation device - Google Patents

Abstract

The utility model discloses a sediment subduction solidification water ecological restoration device, which belongs to the technical field of environmental protection water treatment, and comprises a longitudinal rotating shaft driven by a motor, a transverse rotating shaft arranged below the longitudinal rotating shaft, and a protective shell sleeved outside the longitudinal rotating shaft and the transverse rotating shaft, wherein the longitudinal rotating shaft is uniformly fixed with transverse stirring blades, the transverse rotating shaft is connected with the longitudinal rotating shaft through a shaft sleeve and a connecting rod, a stirring blade plate is fixed on the transverse rotating shaft at equal intervals along the peripheral side of the transverse rotating shaft, and one end side of the transverse rotating shaft is connected with a driving mechanism; the central axis of the longitudinal rotating shaft and the connecting rod is provided with a longitudinal through cavity, the upper end of the longitudinal rotating shaft is connected with an air inlet pipe and a curing agent inlet pipe which are communicated with the longitudinal through cavity, and the inside of the transverse rotating shaft is provided with a transverse containing cavity and a nozzle which are communicated with the longitudinal through cavity. The utility model discloses can realize that the bed mud subducts and can realize the bed mud solidification again, can reach good water purifying effect.

Description

Sediment subducts solidification water ecological remediation device

Technical Field

The utility model relates to an environmental protection water treatment technical field, specificly relate to a sediment subducts solidification water ecological remediation device.

Background

With the continuous enhancement of environmental awareness of people, the problem of water pollution is more and more emphasized. The water body sediment has high water content, is easy to decay, has strong odor, contains abundant nutrient components, and also contains a large amount of pathogens, parasitic ova and organic pollutants which are difficult to degrade. The water body sediment is a component of a water ecosystem, is a storage place of river entering substances and is also a water-soil interface substance alternating zone. On one hand, the bottom mud can indirectly reflect the pollution condition of the water bodies of rivers and lakes; on the other hand, the bottom mud releases nutrient components to the overlying water body under the action of external factors such as wind waves, temperature and the like, and seriously influences the water quality of the water body and the eutrophication process. The bottom mud is the sediment of rivers and lakes, and is an important component of natural water areas. When the water area is polluted, part of pollutants in the water can be stored in the bottom mud through precipitation or particle adsorption, and are released again under proper conditions to become a secondary pollution source, and the pollution is called bottom mud pollution. By eliminating the bottom mud and the solidification of the bottom mud is a very important task for the remediation of most rivers. Therefore, the ecological restoration device for the sediment reduction and solidification water is needed to be provided, which can realize sediment reduction and sediment solidification.

SUMMERY OF THE UTILITY MODEL

1. Technical problem to be solved

The to-be-solved technical problem of the utility model lies in providing a sediment subducts solidification water ecological remediation device that can realize sediment subduct and can realize sediment solidification again to solve the problem among the prior art.

2. Technical scheme

In order to solve the above problem, the utility model adopts the following technical scheme:

a sediment reduction and solidification water ecological restoration device comprises a longitudinal rotating shaft driven by a motor, a transverse rotating shaft horizontally arranged below the longitudinal rotating shaft, and a protective shell sleeved outside the longitudinal rotating shaft and the transverse rotating shaft, wherein transverse stirring blades are uniformly fixed on the longitudinal rotating shaft, a shaft sleeve is sleeved on the transverse rotating shaft, the shaft sleeve is connected with the lower end face of the longitudinal rotating shaft through a connecting rod, turning blade plates are fixed on the transverse rotating shaft at equal intervals along the circumferential side of the transverse rotating shaft, and one end side of the transverse rotating shaft is connected with a driving mechanism for driving the transverse rotating shaft to rotate around the central axis of the transverse rotating shaft;

the utility model discloses a seal assembly, including the connecting rod, the vertical chamber that leads to of terminal surface about it is seted up on the center axis of vertical pivot and connecting rod, the upper end of vertical pivot is connected with the intake pipe and the curing agent that communicate with vertical logical chamber and advances the pipe, intake pipe and curing agent advance all to be equipped with the valve on managing, the horizontal appearance chamber that is located on its center axis is seted up to the inside of horizontal pivot, the cover is equipped with the transition box of being connected through sealed bearing and horizontal pivot in the horizontal pivot, and the horizontal pivot is located and sets up the opening that communicates horizontal appearance chamber on the inboard part of transition box, the lower port department that vertically leads to the chamber is connected with the connecting pipe that communicates with transition box, the spout that communicates horizontal appearance chamber and its surface is seted up to equidistant in the horizontal pivot.

Furthermore, the transverse rotating shaft is sleeved with two shaft sleeves symmetrically arranged about the middle of the transverse rotating shaft, the connecting rod is a U-shaped rod, and the two shaft sleeves are respectively connected to two end parts of the connecting rod. The two shaft sleeves are respectively positioned at two sides of the transverse rotating shaft, and the U-shaped connecting rod is arranged to connect the longitudinal rotating shaft and the two shaft sleeves, so that the transverse rotating shaft can be driven to rotate around the middle part of the transverse rotating shaft in a horizontal plane through the two shaft sleeves stably when the longitudinal rotating shaft rotates; and the transition box can be arranged in the middle of the transverse rotating shaft, so that the uniformity of gas or curing agent introduced into the transverse cavity is better.

Furthermore, auxiliary stirring blades are uniformly fixed on the longitudinal part of the connecting rod along the peripheral side of the connecting rod. When the longitudinal rotating shaft rotates, the connecting rod rotates along with the longitudinal rotating shaft, the auxiliary stirring blades can be driven to rotate around the central axis of the longitudinal rotating shaft in the horizontal plane, the stirring effect on the mud-water mixture can be promoted, and the water purification effect is promoted.

Specifically, actuating mechanism includes intermeshing's drive gear and circle shape rack, the one end coaxial type of transverse rotating shaft is fixed with the extension minor axis, the fixed suit of drive gear is on the extension minor axis, circle shape rack level is located drive gear's top or below, the attached formula of periphery side of circle shape rack is fixed on the protective housing inner wall, protective housing is cylindricly. When the longitudinal rotating shaft rotates, the transverse rotating shaft can be driven to rotate around the central axis of the longitudinal rotating shaft in the horizontal plane, so that the driving gear can be driven to move along the ring-shaped rack, the driving gear and the ring-shaped rack are meshed and assembled, the ring-shaped rack is fixed, the driving gear can rotate, and the transverse rotating shaft can be effectively driven to rotate around the central axis of the driving gear.

Furthermore, an extension short shaft is fixed at one end of the transverse rotating shaft, which is back to the driving gear, cleaning brushes are fixed on the extension short shaft at equal intervals along the peripheral side of the extension short shaft, and the outer end sides of the cleaning brushes can contact the ring-shaped rack. When the transverse rotating shaft rotates around the central axis of the transverse rotating shaft, the extension short shaft on the side where the cleaning brush is located can be driven to rotate, the cleaning brush rotates along with the extension short shaft, the ring-shaped rack can be cleaned, and more dust can be prevented from adhering to the ring-shaped rack.

Furthermore, a driven gear is fixedly sleeved at the upper end of the longitudinal rotating shaft, and a driving gear meshed with the driven gear is fixedly sleeved on an output shaft of the motor. After the motor is started, the driving gear can be driven to rotate, and the driven gear can be driven to rotate through meshing action, so that the longitudinal rotating shaft can be effectively driven to rotate, and the communication between the air inlet pipe and the curing agent inlet pipe and the longitudinal through cavity is not influenced.

Furthermore, a filter plate is fixed on the upper end side of the protective shell, the longitudinal rotating shaft longitudinally penetrates through the center of the filter plate, and a bearing is arranged at the center of the filter plate. The aperture of the filter holes of the filter plate is limited, so that microorganisms and water can be allowed to pass through, and sediment or floccule is not allowed to pass through, so that the microorganisms in the sediment and the oxygen-enriched water positioned on the inner side of the protective shell can penetrate through the filter plate and be dispersed into the water, and the water purification in a larger range is facilitated; meanwhile, the sediment at the inner side of the protective shell and floccules generated by the solidification reaction of the sediment can be prevented from being scattered into a large-scale water body.

3. Advantageous effects

(1) The utility model is provided with a longitudinal rotating shaft and a transverse rotating shaft, the motor directly drives the longitudinal rotating shaft to rotate, and can drive the transverse stirring blades to stir the mixed water body in the range of the peripheral side; the horizontal rotating shaft can be driven to rotate around the vertical central line of the horizontal plane, the driving mechanism can be matched to drive the horizontal rotating shaft to rotate around the central axis of the horizontal rotating shaft, the stirring blade plate can be driven to stir in a circular area range, the mud bottom is rolled up, the self-cleaning capacity of the water body can be promoted, the water quality is improved, the excessive release of bottom mud pollutants is avoided, and secondary pollution is formed.

(2) The utility model discloses a longitudinal direction has seted up the vertical chamber that leads to in the longitudinal axis, the horizontal appearance chamber that leads to the chamber intercommunication with vertical has been seted up in the horizontal pivot, the upper end of longitudinal direction pivot is connected with the intake pipe that leads to the chamber intercommunication with vertical, when using, be connected the input of intake pipe with air feed mechanism, start motor and air feed mechanism simultaneously, the motor drives horizontal stirring vane and rotates, and drive and turn over the lamina and turn over the cultivation to the bed mud, the air passes through the vertical chamber that leads to and gets into horizontal appearance chamber, and spout, along with the rotation of horizontal pivot, the gas that spouts from the spout covers horizontal pivot week side, cooperate and turn over the cultivation effect of lamina to the bed mud, promote the degree that the bed mud was raised, then horizontal stirring vane and auxiliary stirring vane stir the bed mud and microorganism and the water that raise, promote the bed mud to subdue the effect; in addition, the microorganisms rich in the bottom mud can contact with the air sprayed out from the nozzle to expose oxygen to a greater extent, and the microorganisms and the oxygen-enriched water can also penetrate through the filter plate to be diffused to a larger range of water, so that a better water purification effect is achieved.

(3) The upper end of the longitudinal rotating shaft of the utility model is connected with a curing agent inlet pipe communicated with the longitudinal through cavity, when in use, the input end of the curing agent inlet pipe is connected with a curing agent storage mechanism, the motor and the curing agent storage mechanism are simultaneously started, the motor drives the transverse stirring blade to rotate and drives the stirring blade plate to turn over the bottom mud, and microorganisms rich in the bottom mud are stirred out and can be stirred to be mixed into the water body, thereby being beneficial to water body purification; the curing agent gets into horizontal appearance chamber through vertically leading to the chamber, and through the spout blowout, along with the rotation of horizontal pivot, make comparatively even spouting of curing agent to its week side, and the cooperation leaf board that turns over ploughs the effect to the bed mud, make curing agent and the bed mud homogeneous mixing who is turned, chemical reaction takes place for curing agent and bed mud, make the interior large granule thing of bed mud become great floccule, reach better bed mud curing effect, simultaneously because curing agent and mud can fully contact, be favorable to saving the use amount of curing agent.

To sum up, the utility model discloses can realize that the bed mud subducts and can realize the bed mud solidification again, can reach good water purifying effect.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a cross-sectional view of the protective shell 4 and its inner structure taken along a vertical transverse center plane;

FIG. 3 is an enlarged view of the structure of the area A in FIG. 2;

fig. 4 is a schematic cross-sectional view of the traverse shaft 3.

Reference numerals: 1. cleaning with a brush; 2. an extended minor axis; 3. a transverse rotating shaft; 4. a protective housing; 5. a transverse stirring blade; 6. filtering the plate; 7. a driven gear; 8. an air inlet pipe; 9. a valve; 10. a curing agent inlet pipe; 11. a motor; 12. a driving gear; 13. a longitudinal rotating shaft; 14. a connecting rod; 15. auxiliary stirring blades; 16. a shaft sleeve; 17. a ring-shaped rack; 18. a drive gear; 19. turning over the leaf plate; 20. a transverse cavity; 21. a spout; 22. a connecting pipe; 23. a longitudinal through cavity; 24. a bearing; 25. a transition box; 26. a port; 27. and sealing the bearing.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, detachably connected, or integral to one another; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the feature of the inlet "on" or "under" the second feature may comprise direct contact between the inlet and the second feature, or may comprise contact between the inlet and the second feature not directly but through another feature in between. Also, the terms "over," "above," and "above" the second feature include the inlet feature being directly above and obliquely above the second feature, or simply indicating that the inlet feature is at a higher level than the second feature. The terms "under", "below" and "beneath" of an inlet feature encompass the inlet feature being directly under and obliquely below the second feature, or simply meaning that the inlet feature is less level than the second feature.

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

Example 1

As shown in fig. 1, the ecological restoration device for sediment reduction and solidification water comprises a longitudinal rotating shaft 13 driven by a motor 11, a transverse rotating shaft 3 horizontally arranged below the longitudinal rotating shaft 13, and a protective shell 4 sleeved outside the longitudinal rotating shaft 13 and the transverse rotating shaft 3;

as shown in fig. 1, a driven gear 7 is fixedly sleeved at the upper end of the longitudinal rotating shaft 13, and a driving gear 12 engaged with the driven gear 7 is fixedly sleeved on an output shaft of the motor 11. After the motor 11 is started, the driving gear 12 can be driven to rotate, and the driven gear 7 can be driven to rotate through meshing action, so that the longitudinal rotating shaft 13 can be effectively driven to rotate, and the communication between the air inlet pipe 8 and the curing agent inlet pipe 10 and the longitudinal through cavity 23 is not influenced; the longitudinal rotating shaft 13 is uniformly fixed with transverse stirring blades 5;

as shown in fig. 1, 2 and 4, a shaft sleeve 16 is sleeved on the transverse rotating shaft 3, the shaft sleeve 16 is connected with the lower end surface of the longitudinal rotating shaft 13 through a connecting rod 14, turning blades 19 are fixed on the transverse rotating shaft 3 at equal intervals along the circumferential side of the transverse rotating shaft, and a driving mechanism for driving the transverse rotating shaft 3 to rotate around the central axis of the transverse rotating shaft 3 is connected to one end side of the transverse rotating shaft 3; actuating mechanism includes intermeshing's drive gear 18 and circle shape rack 17, the one end coaxial-type of transverse rotating shaft 3 is fixed with extension minor axis 2, the fixed suit of drive gear 18 is on extending minor axis 2, circle shape rack 17 level is located the top of drive gear 18, the attached formula of periphery side of circle shape rack 17 is fixed on protective housing 4 inner wall, protective housing 4 is cylindricly. When the longitudinal rotating shaft 13 rotates, the transverse rotating shaft 3 can be driven to rotate around the central axis of the longitudinal rotating shaft 13 in the horizontal plane, so that the driving gear 18 can be driven to move along the ring-shaped rack 17, and the driving gear 18 can rotate due to the meshing assembly of the driving gear 18 and the ring-shaped rack 17, and the ring-shaped rack 17 is fixed, so that the transverse rotating shaft 3 can be effectively driven to rotate around the central axis of the transverse rotating shaft;

as shown in fig. 2, 3 and 4, a longitudinal through cavity 23 penetrating the upper and lower end surfaces is opened on the central axis of the longitudinal rotating shaft 13 and the connecting rod 14, the upper end of the longitudinal rotating shaft 13 is connected with an air inlet pipe 8 and a curing agent inlet pipe 10 which are communicated with the longitudinal through cavity 23, the air inlet pipe 8 and the curing agent inlet pipe 10 can rotate relative to the longitudinal rotating shaft 13, the air inlet pipe 8 and the curing agent inlet pipe 10 are both provided with valves 9, a transverse cavity 20 positioned on the central axis of the transverse rotating shaft 3 is arranged inside the transverse rotating shaft, the transverse rotating shaft 3 is sleeved with a transition box 25 connected with the transverse rotating shaft 3 through a sealed bearing 27, and the part of the transverse rotating shaft 3 positioned at the inner side of the transition box 25 is provided with a through hole 26 communicated with the transverse containing cavity 20, the lower port of the longitudinal through cavity 23 is connected with a connecting pipe 22 communicated with a transition box 25, and nozzles 21 communicating the transverse cavity 20 with the outer surface of the transverse cavity are arranged in the transverse rotating shaft 3 at equal intervals.

Example 2

The present embodiment is different from embodiment 1 in that:

in the present embodiment, the annular rack 17 is located horizontally below the drive gear 18.

In the present embodiment, as shown in fig. 1 and fig. 2, two bushings 16 symmetrically disposed about the middle of the transverse rotating shaft 3 are sleeved on the transverse rotating shaft 3, the connecting rod 14 is a U-shaped rod, and the two bushings 16 are respectively connected to two end portions of the connecting rod 14. The two shaft sleeves 16 respectively positioned at two sides of the transverse rotating shaft 3 are arranged, and the U-shaped connecting rod 14 is arranged to connect the longitudinal rotating shaft 13 and the two shaft sleeves 16, so that the transverse rotating shaft 3 can be driven to rotate around the middle part of the transverse rotating shaft 3 in a horizontal plane stably by the two shaft sleeves 16 when the longitudinal rotating shaft 13 rotates; and the transition box 25 can be arranged in the middle of the transverse rotating shaft 3, so that the uniformity of the gas or curing agent introduced into the transverse cavity 20 is better.

In the present embodiment, as shown in fig. 1 and 2, auxiliary stirring vanes 15 are uniformly fixed to the longitudinal portion of the connecting rod 14 along the circumferential side thereof. When the longitudinal rotating shaft 13 rotates, the connecting rod 14 rotates along with the longitudinal rotating shaft, so that the auxiliary stirring blade 15 can be driven to rotate around the central axis of the longitudinal rotating shaft 13 in the horizontal plane, the stirring effect on the mud-water mixture can be promoted, and the water purification can be promoted.

Otherwise, the same procedure as in example 1 was repeated.

Example 3

The present embodiment is different from embodiment 2 in that:

in the present embodiment, as shown in fig. 1 and 2, a filter plate 6 is fixed to an upper end side of the protective housing 4, the longitudinal rotating shaft 13 longitudinally passes through a center of the filter plate 6, and a bearing 24 is disposed at the center of the filter plate 6. The aperture of the filter holes of the filter plate 6 is limited, so that microorganisms and water can be allowed to pass through, and sediment or floccule can not be allowed to pass through, so that the microorganisms in the sediment and the oxygen-enriched water positioned on the inner side of the protective shell 4 can penetrate through the filter plate 6 and be dispersed into the water, and the purification of the water with a large range is facilitated; meanwhile, the sediment at the inner side of the protective shell 4 and floccules generated by the solidification reaction of the sediment can be prevented from being scattered into a large-scale water body.

In the present embodiment, as shown in fig. 1 and 2, an extension short shaft 2 is fixed to one end of the transverse rotating shaft 3 facing away from the drive gear 18, the cleaning brush 1 is fixed to the extension short shaft 2 at equal intervals along the circumferential side thereof, and the outer end side of the cleaning brush 1 can contact the ring-shaped rack 17. When the transverse rotating shaft 3 rotates around the central axis of the transverse rotating shaft, the extension short shaft 2 on the side where the cleaning brush 1 is located can be driven to rotate, the cleaning brush 1 rotates along with the extension short shaft, the ring-shaped rack 17 can be cleaned, and more dust can be prevented from being adhered to the ring-shaped rack 17.

The rest is the same as example 2.

The specific application process of the sediment reduction and solidification water ecological restoration device is as follows:

the upper end of a longitudinal rotating shaft 13 is rotatably connected to a floating body, a motor 11, an air supply mechanism and a curing agent storage mechanism are arranged on the floating body, the input end of an air inlet pipe 8 is connected with the air supply mechanism, the input end of a curing agent inlet pipe 10 is connected with the curing agent storage mechanism, and a protective shell 4 and the structure on the inner side of the protective shell are placed in a natural water body until the protective shell collides with bottom mud;

if the bottom mud reduction treatment is required, the valve 9 on the air inlet pipe 8 is opened, the valve 9 on the curing agent inlet pipe 10 is closed, the air supply mechanism and the motor 11 are started, the motor 11 drives the longitudinal rotating shaft 13 to rotate around the central axis thereof through the transmission of the driving gear 12 and the driven gear 7, the connecting rod 14 rotates along with the longitudinal rotating shaft, the transverse rotating shaft 3 is driven to rotate around the vertical central axis thereof in the horizontal plane through the shaft sleeve 16, the driving gear 18 moves along the ring-shaped rack 17 along with the longitudinal rotating shaft, the driving gear 18 rotates, the transverse rotating shaft 3 is driven to rotate around the central axis thereof, the turning vane plate 19 is driven to rotate, the plowing of the bottom mud is realized, the mud bottom is rolled up, the self-cleaning capacity of a water body can be promoted, the water quality is improved, the excessive release of the bottom mud pollutants to form secondary pollution is avoided, in addition, the plowing mode of the bottom mud can enable the upper layer of the bottom mud to be in a fresh state all the time, the bottom mud contains a large amount of microorganisms, and the microorganisms can further improve the water purification function of the bottom mud and realize the effect of mud and water co-treatment; meanwhile, the air supply mechanism sends air into the longitudinal through cavity 23, the air enters the transition box 25 along the connecting pipe 22, then enters the transverse containing cavity 20 through the through hole 26, and finally is sprayed out through the nozzle 21, along with the rotation of the transverse rotating shaft 3, the gas sprayed out from the nozzle 21 covers the periphery of the transverse rotating shaft 3, the turning effect of the turning blade plate 19 on the bottom mud is matched, the lifting degree of the bottom mud is promoted, then the transverse stirring blade 5 and the auxiliary stirring blade 15 stir the lifted bottom mud, microorganisms and water, and the bottom mud reduction effect is promoted; in addition, the microorganisms rich in the bottom sediment can contact with the air sprayed from the nozzles 21 to expose oxygen to a greater extent, and the microorganisms and the oxygen-enriched water can also penetrate through the filter plate 6 to diffuse to a larger range of water, so that a better water purification effect is achieved.

If sediment solidification treatment is required, opening a valve 9 on a curing agent inlet pipe 10 and closing the valve 9 on an air inlet pipe 8, starting a curing agent storage mechanism and a motor 11, driving a longitudinal rotating shaft 13 to rotate around the central axis of the motor 11, driving a transverse stirring blade 5 and an auxiliary stirring blade 15 to rotate in a horizontal plane, driving a transverse rotating shaft 3 to rotate around the vertical central line of the motor and rotate around the central axis of the motor, driving a blade turning plate 19 to turn over the sediment, and turning over microorganisms rich in the sediment and stirring the microorganisms into a water body, so that the water body purification is facilitated; the curing agent advances pipe 10 through the curing agent and gets into vertical logical chamber 23, then get into transition box 25 along connecting pipe 22, get into horizontal appearance chamber 20 through opening 26 afterwards, spout 21 blowout through last, along with the rotation of horizontal pivot 3, make comparatively even spout of curing agent to its week side, and the cooperation turns over the effect of ploughing of lamina 19 to the bed mud, make curing agent and the bed mud homogeneous mixing who is turned over, chemical reaction takes place for curing agent and bed mud, make the interior large granule thing of bed mud become great floccule, reach better bed mud curing effect, simultaneously because curing agent and mud can fully contact, be favorable to saving the use amount of curing agent.

According to the above, the utility model discloses can realize that the bed mud subducts and can realize the bed mud solidification again, can reach good water purifying effect.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (7)

1. The ecological restoration device for the sediment reduction solidified water is characterized by comprising a longitudinal rotating shaft (13) driven by a motor (11), a transverse rotating shaft (3) horizontally arranged below the longitudinal rotating shaft (13), and a protective shell (4) sleeved outside the longitudinal rotating shaft (13) and the transverse rotating shaft (3), wherein transverse stirring blades (5) are uniformly fixed on the longitudinal rotating shaft (13), a shaft sleeve (16) is sleeved on the transverse rotating shaft (3), the shaft sleeve (16) is connected with the lower end face of the longitudinal rotating shaft (13) through a connecting rod (14), blade plates (19) are fixed on the transverse rotating shaft (3) at equal intervals along the peripheral side of the transverse rotating shaft, and one end of the transverse rotating shaft (3) is connected with a driving mechanism for driving the transverse rotating shaft (3) to rotate around the central axis of the transverse rotating shaft;

set up on the central axis of vertical pivot (13) and connecting rod (14) and link up vertical logical chamber (23) of terminal surface about it, the upper end of vertical pivot (13) is connected with intake pipe (8) and the curing agent that communicate with vertical logical chamber (23) and advances pipe (10), intake pipe (8) and curing agent advance and all are equipped with valve (9) on pipe (10), horizontal appearance chamber (20) that is located on its central axis are seted up to the inside of horizontal pivot (3), the cover is equipped with transition box (25) of being connected through sealed bearing (27) and horizontal pivot (3) on horizontal pivot (3), and sets up opening (26) that communicate horizontal appearance chamber (20) on the part that horizontal pivot (3) are located transition box (25) inboard, the lower port department that vertically leads to chamber (23) is connected with connecting pipe (22) that transition box (25) communicate, equidistant spout that communicates horizontal appearance chamber (20) and its surface has been seted up in horizontal pivot (3) (21).

2. The ecological restoration device for sediment-depleted solidified water according to claim 1, wherein the transverse rotating shaft (3) is sleeved with two bushings (16) symmetrically arranged about the middle of the transverse rotating shaft (3), the connecting rod (14) is a U-shaped rod, and the two bushings (16) are respectively connected to two ends of the connecting rod (14).

3. A substrate-sludge-annihilating-solidifying-water ecological restoration apparatus according to claim 1 or 2, wherein auxiliary agitating blades (15) are uniformly fixed to the longitudinal portion of the connecting rod (14) along the circumferential side thereof.

4. A sediment reduction and solidification water ecological restoration device according to claim 1, wherein the driving mechanism comprises a driving gear (18) and a ring-shaped rack (17) which are meshed with each other, an extension short shaft (2) is coaxially fixed at one end of the transverse rotating shaft (3), the driving gear (18) is fixedly sleeved on the extension short shaft (2), the ring-shaped rack (17) is horizontally arranged above or below the driving gear (18), the outer peripheral side of the ring-shaped rack (17) is fixedly attached to the inner wall of the protective shell (4), and the protective shell (4) is cylindrical.

5. A sediment reduction and solidification water ecological restoration device according to claim 4, wherein an extension short shaft (2) is fixed at one end of the transverse rotating shaft (3) opposite to the driving gear (18), cleaning brushes (1) are fixed on the extension short shaft (2) at equal intervals along the peripheral side of the extension short shaft, and the outer end side of each cleaning brush (1) can contact the ring-shaped rack (17).

6. A device for ecologically remediating sediment-depleted and solidified water as defined in claim 1, wherein a driven gear (7) is fixedly mounted on the upper end of said longitudinal shaft (13), and a driving gear (12) engaged with said driven gear (7) is fixedly mounted on the output shaft of said motor (11).

7. A sediment subtraction solidifying water ecological restoration device according to claim 1, wherein a filter plate (6) is fixed on the upper end side of the protective shell (4), the longitudinal rotating shaft (13) longitudinally passes through the center of the filter plate (6), and a bearing (24) is arranged at the center of the filter plate (6).

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