CN216879401U - A porous material apparatus for producing for ecological recovery of water - Google Patents

Abstract

The utility model discloses a porous material production device for water ecological restoration, which relates to the technical field of water ecological restoration and comprises a footing, a drying structure and a crushing structure, wherein a main body is installed at the top end of the footing, a first cavity is formed in the top end of the main body, a driving motor is installed at the middle position of the top end of the main body, a stirring rod is installed at the output end of the driving motor, two stirring blades are installed on two sides of the stirring rod, a liquid inlet pipe is installed on one side of the top end of the main body, a feeding groove is installed on one side, far away from the liquid inlet pipe, of the top end of the main body, and the bottom end of the feeding groove extends to one side of the top end in the first cavity. According to the utility model, the optimized microbial flora is fixed on the porous biological carbon material and then is thrown and settled on the shallow surface layer of the water sludge, so that the water quality can be purified, the black and odor can be eliminated, the micro water treatment and ecological restoration can be realized, and the biomass porous carbon material can be degraded.

Description

A porous material apparatus for producing for ecological recovery of water

Technical Field

The utility model relates to the technical field of water body ecological restoration, in particular to a porous material production device for water body ecological restoration.

Background

The water body restoration technology comprises a biological treatment technology taking microorganisms as a treatment function core, an ecological pond treatment technology with a composite ecological system, a wetland treatment technology taking plants and microorganisms as main treatment functional bodies, a soil treatment technology, treatment of natural purification capacity of rivers, lakes and the like, and the sewage is purified by utilizing triple combined actions of physics, chemistry and biology in the natural ecological system.

Traditional porous material apparatus for producing is carrying out the in-process that uses, and the in-process is activated raw and other materials through carbon dioxide and vapor, makes its activation pore-forming, and then realizes fixing the microbial community in the inside effect of purifying water quality of hole.

In the process of using the traditional porous material production device, the pore diameter of the activated pore-forming is small, so the purification effect is poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a porous material production device for water ecological restoration, which aims to solve the problem of poor purification effect due to small pore diameter in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: a porous material production device for water body ecological restoration comprises a footing, a drying structure and a crushing structure;

the crushing structure comprises a bottom foot, a main body, a stirring rod, a liquid inlet pipe, a feeding groove and a crushing structure, wherein the top end of the bottom foot is provided with the main body, the inside of the top end of the main body is provided with a first cavity, the middle position of the top end of the main body is provided with a driving motor, the output end of the driving motor is provided with the stirring rod, two stirring blades are respectively arranged on two sides of the stirring rod, the liquid inlet pipe is arranged on one side of the top end of the main body, the side, away from the liquid inlet pipe, of the top end of the main body is provided with the feeding groove, the bottom end of the feeding groove extends to one side of the top end of the inside of the first cavity, and the crushing structure is positioned inside the feeding groove;

a second cavity is formed in the bottom end of the interior of the main body, and the drying structure is located in the second cavity;

the drying structure comprises a drain pipe, the drain pipe is installed in the bottom of the inside of the second cavity, a drain valve is installed at the bottom of the drain pipe, the sliding grooves are installed in the bottoms of the two sides of the inside of the second cavity, sliding strips are arranged inside the sliding grooves, a filter screen is transversely installed between the sliding strips, heating plates are installed at the middle positions of the two sides of the inside of the second cavity, air inlet pipes are installed at the top ends of the two sides of the inside of the second cavity, a connecting pipe is installed at the top end of the inside of the second cavity, and a connecting valve is installed at the bottom end of the connecting pipe.

Preferably, the bottom end of the stirring rod penetrates through the main body, and the bottom end of the stirring rod extends to the inside of the first cavity;

the bottom of feed liquor pipe passes the main part, and the bottom of feed liquor pipe extends to one side on the inside top of first cavity.

Preferably, the main part is passed to the bottom of drain pipe, and the bottom of drain pipe extends to the bottom of main part, the spout all constitutes sliding structure through draw runner and spout, and the main part is all passed to the one end of intake pipe.

Preferably, one end of the main body extends to both sides of the main body, and the top end of the connecting pipe extends to the bottom end inside the first cavity.

Preferably, broken structure includes crushing board, broken roller, bull stick and servo motor, servo motor all installs in the both sides of throwing the silo rear end, and servo motor's output all installs the bull stick, throw the inside bull stick outer wall of silo and all install broken roller, and the crushing board all installs in the both sides of throwing the silo.

Preferably, the front ends of the rotating rods penetrate through the feeding groove, the front ends of the rotating rods extend to the front end inside the feeding groove, and the rotating rods are mounted on two sides of the front end inside the feeding groove through rotating shafts.

Compared with the prior art, the utility model has the beneficial effects that: open the hot plate, carry out drying process to the solid matter through the hot plate, a period of time back, the staff lets in protective gas through the intake pipe to the inside of second cavity, can heat up the hot plate afterwards, the solid matter inside the second cavity heats, can open the door of main part after a period of time, take the filter screen out through the inside of spout follow draw runner, can obtain the living beings porous carbon material of large aperture, through specific technology, fix preferred microbial flora on porous biological carbon material, then spill and sink to water silt shallow top layer, not only can purify water quality, eliminate black and odorous, can also realize little water body and administer and ecological remediation, and living beings porous carbon material degradable.

Drawings

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

FIG. 2 is a schematic front view of the present invention;

FIG. 3 is a schematic top view of the present invention;

FIG. 4 is a schematic view of the charging chute in a cross-sectional and enlarged structure from above;

fig. 5 is an enlarged schematic view of a portion a in fig. 1 according to the present invention.

In the figure: 1. footing; 2. a drain valve; 3. a drain pipe; 4. a main body; 5. a chute; 6. heating plates; 7. an air inlet pipe; 8. a first cavity; 9. a crushing structure; 901. a breaker plate; 902. crushing the roller; 903. a rotating rod; 904. a servo motor; 10. a stirring rod; 11. a liquid inlet pipe; 12. a drive motor; 13. a feeding trough; 14. a stirring blade; 15. a connecting pipe; 16. connecting a valve; 17. a slide bar; 18. filtering with a screen; 19. a second cavity.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1: referring to fig. 1-5, a porous material production device for water ecological restoration comprises a footing 1, a drying structure and a crushing structure 9;

the top end of the footing 1 is provided with a main body 4, a first cavity 8 is formed in the top end of the main body 4, a driving motor 12 is arranged in the middle position of the top end of the main body 4, the type of the driving motor 12 can be YS8024, the output end of the driving motor 12 is provided with a stirring rod 10, the bottom end of the stirring rod 10 penetrates through the main body 4, the bottom end of the stirring rod 10 extends into the first cavity 8, two stirring blades 14 are arranged on two sides of the stirring rod 10, a liquid inlet pipe 11 is arranged on one side of the top end of the main body 4, the bottom end of the liquid inlet pipe 11 penetrates through the main body 4, the bottom end of the liquid inlet pipe 11 extends to one side of the top end of the first cavity 8, a feeding groove 13 is arranged on one side, far away from the liquid inlet pipe 11, of the top end of the main body 4, the bottom end of the feeding groove 13 extends to one side of the top end of the first cavity 8, and the crushing structure 9 is positioned in the feeding groove 13;

a second cavity 19 is formed at the bottom end inside the main body 4, and the drying structure is positioned inside the second cavity 19;

referring to fig. 1-5, a porous material production device for water ecological restoration further comprises a drying structure, the drying structure comprises a drain pipe 3, the drain pipe 3 is installed at the bottom end inside a second cavity 19, a drain valve 2 is installed at the bottom end of the drain pipe 3, sliding chutes 5 are installed at the bottom ends of two sides inside the second cavity 19, sliding strips 17 are arranged inside the sliding chutes 5, a filter screen 18 is transversely installed between the sliding strips 17, a heating plate 6 is installed at the middle position of two sides inside the second cavity 19, air inlet pipes 7 are installed at the top ends of two sides inside the second cavity 19, a connecting pipe 15 is installed at the top end inside the second cavity 19, and a connecting valve 16 is installed at the bottom end of the connecting pipe 15;

the bottom end of the drain pipe 3 penetrates through the main body 4, the bottom end of the drain pipe 3 extends to the bottom end of the main body 4, the sliding grooves 5 and the sliding grooves 5 form a sliding structure through sliding strips 17, and one end of the air inlet pipe 7 penetrates through the main body 4;

one end of the main body 4 extends to both sides of the main body 4, and the top end of the connecting pipe 15 extends to the bottom end inside the first cavity 8;

specifically, as shown in fig. 1, fig. 2 and fig. 3, when using this mechanism, open hot plate 6, carry out drying process to the solid matter through hot plate 6, a period of time later, the staff lets in protective gas to the inside of second cavity 19 through intake pipe 7, can heat hot plate 6 afterwards, heat the inside solid material of second cavity 19, can open the door of main part 4 after a period of time, take filter screen 18 out from the inside of draw runner 17 through spout 5, can obtain the macroporous bionass porous carbon material of aperture.

Example 2: the crushing structure 9 comprises crushing plates 901, crushing rollers 902, rotating rods 903 and servo motors 904, wherein the servo motors 904 are arranged on two sides of the rear end of the feeding trough 13, the type of the servo motors 904 can be F-3420-1, the rotating rods 903 are arranged at the output ends of the servo motors 904, the crushing rollers 902 are arranged on the outer walls of the rotating rods 903 in the feeding trough 13, and the crushing plates 901 are arranged on two sides of the feeding trough 13;

the front ends of the rotating rods 903 penetrate through the feeding groove 13, the front ends of the rotating rods 903 extend to the front end inside the feeding groove 13, and the rotating rods 903 are mounted on two sides of the front end inside the feeding groove 13 through rotating shafts;

specifically, as shown in fig. 1, 4 and 5, when the mechanism is used, a servo motor 904 is started, a rotating rod 903 is driven to rotate by the servo motor 904, a crushing roller 902 is driven to rotate by the rotating rod 903, raw materials falling between the crushing rollers 902 are crushed by rotation between the crushing rollers 902, and the raw materials falling between a crushing plate 901 and the rotating rod 903 can be crushed by the combined action of the crushing roller 902 and the crushing plate 901.

The working principle is as follows: the staff puts the material spine date core into the feeding trough 13, then the servo motor 904 is started, the servo motor 904 drives the rotating rod 903 to rotate, the rotating rod 903 drives the crushing roller 902 to rotate, the raw material falling between the crushing rollers 902 is crushed by the rotation between the crushing rollers 902, the raw material falling between the crushing plate 901 and the rotating rod 903 can be crushed by the combined action of the crushing roller 902 and the crushing plate 901, the crushed raw material enters the first cavity 8 through the feeding trough 13, the staff introduces solvent and alkali source into the first cavity 8 through the liquid inlet pipe 11, then the driving motor 12 is started, the stirring rod 10 is driven to rotate by the driving motor 12, the stirring blade 14 is driven to rotate by the stirring rod 10, the mixture in the first cavity 8 is fully mixed through the feeding trough 13, the connecting valve 16 is closed, after a period of mixing, the driving motor 12 is closed, the connecting valve 16 is opened, the mixture is introduced into the second cavity 19 through the connecting pipe 15, the solid matter is filtered by the filter screen 18, the solid matter is left on the top of the filter screen 18, the liquid can be discharged from the water discharge pipe 3 by opening the water discharge valve 2, and then the heating plate 6 can be opened by the worker, the solid matter is dried by the heating plate 6, after a period of time, the worker introduces protective gas into the second cavity 19 through the gas inlet pipe 7, and then the heating plate 6 is heated, the solid material inside the second cavity 19 is heated, the bin door of the main body 4 can be opened after a period of time, the filter screen 18 is drawn out from the inside of the slide bar 17 through the sliding groove 5, and then the biomass porous carbon material with large aperture can be obtained.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. A porous material apparatus for producing for ecological restoration of water, includes footing (1), its characterized in that: also comprises a drying structure and a crushing structure (9);

the crushing device comprises a bottom foot (1), a main body (4) is installed at the top end of the bottom foot (1), a first cavity (8) is formed in the top end of the main body (4), a driving motor (12) is installed at the middle position of the top end of the main body (4), a stirring rod (10) is installed at the output end of the driving motor (12), two stirring blades (14) are installed on two sides of the stirring rod (10), a liquid inlet pipe (11) is installed on one side of the top end of the main body (4), a feeding groove (13) is installed on one side, far away from the liquid inlet pipe (11), of the top end of the main body (4), the bottom end of the feeding groove (13) extends to one side of the top end of the interior of the first cavity (8), and a crushing structure (9) is located inside the feeding groove (13);

a second cavity (19) is formed in the bottom end of the interior of the main body (4), and the drying structure is located in the second cavity (19);

drying structure includes drain pipe (3), install in the inside bottom of second cavity (19) drain pipe (3), and drain pipe (3) bottom installs drainage valve (2), spout (5) are all installed to the bottom of the inside both sides of second cavity (19), and the inside of spout (5) all is provided with draw runner (17), transversely install filter screen (18) between draw runner (17), and the inside both sides intermediate position department of second cavity (19) all installs hot plate (6), intake pipe (7) are all installed on the top of the inside both sides of second cavity (19), and connecting pipe (15) are installed on the inside top of second cavity (19), connecting valve (16) are installed to the bottom of connecting pipe (15).

2. The porous material production device for water body ecological restoration according to claim 1, characterized in that: the bottom end of the stirring rod (10) penetrates through the main body (4), and the bottom end of the stirring rod (10) extends to the inside of the first cavity (8).

3. The porous material production device for water body ecological restoration according to claim 1, characterized in that: the bottom end of the liquid inlet pipe (11) penetrates through the main body (4), and the bottom end of the liquid inlet pipe (11) extends to one side of the top end inside the first cavity (8).

4. The porous material production device for water body ecological restoration according to claim 1, characterized in that: the bottom of drain pipe (3) passes main part (4), and the bottom of drain pipe (3) extends to the bottom of main part (4), spout (5) all constitute sliding structure through draw runner (17) and spout (5), and the one end of intake pipe (7) all passes main part (4).

5. The porous material production device for water body ecological restoration according to claim 1, characterized in that: one end of the main body (4) extends to two sides of the main body (4), and the top end of the connecting pipe (15) extends to the bottom end inside the first cavity (8).

6. The porous material production device for water body ecological restoration according to claim 1, characterized in that: the crushing structure (9) comprises a crushing plate (901), a crushing roller (902), a rotating rod (903) and a servo motor (904), wherein the servo motor (904) is installed on two sides of the rear end of the feeding trough (13), the rotating rod (903) is installed at the output end of the servo motor (904), the crushing roller (902) is installed on the outer wall of the rotating rod (903) inside the feeding trough (13), and the crushing plate (901) is installed on two sides of the feeding trough (13).

7. The porous material production device for water body ecological restoration according to claim 6, characterized in that: the front end of the rotating rod (903) penetrates through the feeding groove (13), the front end of the rotating rod (903) extends to the front end of the feeding groove (13), and the rotating rod (903) is installed on two sides of the front end of the feeding groove (13) through a rotating shaft.

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