CN219689505U - Water ecological restoration device with built-in microorganism generation structure - Google Patents

Abstract

The utility model discloses a water ecological restoration device with a built-in microorganism generation structure, which relates to the field of water ecological restoration and comprises a shell, wherein two groups of buoyancy plates are arranged on the side wall of the shell, a pull ring is arranged on the outer wall of the shell, and a material sucking mechanism is arranged at the top end of the shell; the discharging mechanism comprises a storage box, the top end of the shell is provided with the storage box, the bottom end of the inner wall of the storage box is provided with a discharging disc, and the top end of the discharging disc is provided with a plurality of groups of discharging openings. According to the utility model, through the mutual matching of the storage box, the material sucking disc, the material discharging opening and the anti-blocking brush, after the storage box is filled with the culture medium, the culture medium slowly enters the shell through the material discharging opening, the anti-blocking brush continuously rotates to brush the material discharging opening, so that the condition that the culture medium cannot smoothly enter the shell due to the fact that the culture medium is blocked in the material discharging opening is prevented, the occurrence rate of microorganisms is improved after microorganisms in river water in the shell eat the culture medium, and the culture medium is more suitable for the indigenous environment.

Description

Water ecological restoration device with built-in microorganism generation structure

Technical Field

The utility model relates to the field of water ecological restoration, in particular to a water ecological restoration device with a built-in microorganism generation structure.

Background

The ecological restoration of water area, also called as "ecological restoration of water area", adopts the relevant technological means to carry on the partial or whole restoration process of the ecological system of damaged, degenerated or destroyed water area, namely the integrative restoration and management process, mainly through engineering, physical, chemistry, biology and management, etc. technology, reconstruct, improve, repair, renew, re-plant, etc. to put in artificial fish reef and restore the marine ecological environment in some coastal countries, protect fishery resources and biodiversity.

When the conventional aquatic ecology restoration system is used, microorganisms are added into the aquatic ecology to achieve the effect of promoting the rapid restoration of the aquatic ecology, and the microorganisms are usually cultured and propagated in a laboratory, so that some microorganisms are not suitable for the indigenous environment, and the indigenous microorganisms are not convenient to accelerate to propagate directly.

Disclosure of Invention

Based on the above, the present utility model aims to provide an aquatic ecology restoration device with a built-in microorganism generating structure, so as to solve the technical problems set forth in the background.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the water ecological restoration device with the built-in microorganism generation structure is characterized in that two groups of buoyancy plates are arranged on the side wall of a shell, a pull ring is arranged on the outer wall of the shell, and a material sucking mechanism is arranged at the top end of the shell;

the discharging mechanism comprises a storage box, the top end of the shell is provided with the storage box, the bottom end of the inner wall of the storage box is provided with a discharging disc, the top end of the discharging disc is provided with a plurality of groups of discharging openings, the plurality of groups of discharging openings penetrate through the outer wall of the top end of the shell, and the top end of the shell is provided with a mounting ring.

Preferably, the inner wall sliding connection of collar has the inserted block, the top of inserted block is equipped with the roof, the top of roof is equipped with motor No. one, the inner wall rotation of inserted block is connected with the bull stick, and the output of motor No. one is connected in the one end of bull stick, the one end of bull stick extends to the inside of storage box, the bull stick extends to the inside one end lateral wall of storage box and is equipped with two sets of anti-blocking brushes, and the bottom of anti-blocking brush extends to the inside of feed opening.

Preferably, two groups of mounting grooves are formed in the inner wall of the mounting ring, the top ends of the two groups of mounting grooves are provided with sliding grooves, the inner wall of each sliding groove is slidably connected with a jacking block, the top ends of the jacking blocks are provided with springs, the other ends of the springs are connected to the inner wall of each sliding groove, and the bottom ends of the two groups of mounting grooves are provided with fixing grooves.

Preferably, the side wall of the insertion block is provided with two groups of mounting shafts, the two groups of mounting shafts are matched with the two groups of mounting grooves, and the top end of the top plate is provided with two groups of handles.

Preferably, the bottom of casing is equipped with No. two motors, no. two motors's output is equipped with the pivot, and the one end of pivot extends to the inside of casing, and multiple the pivot extends to the inside one end lateral wall of casing and is equipped with multiunit puddler, the bottom of casing is equipped with waterproof shell, and No. two motors are located the inside of waterproof shell.

Preferably, the side wall of the shell is provided with two groups of water inlets and water outlets, and the inner walls of the two groups of water inlets and water outlets are provided with filter screens.

In summary, the utility model has the following advantages:

according to the utility model, through the mutual matching of the storage box, the material sucking disc, the material discharging opening and the anti-blocking brush, after the storage box is filled with the culture medium, the culture medium slowly enters the shell through the material discharging opening, the anti-blocking brush continuously rotates to brush the material discharging opening, so that the condition that the culture medium cannot smoothly enter the shell due to the fact that the culture medium is blocked in the material discharging opening is prevented, the occurrence rate of microorganisms is improved after microorganisms in river water in the shell eat the culture medium, and the culture medium is more suitable for the indigenous environment.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a front perspective cross-sectional view of the present utility model;

FIG. 3 is an exploded view of the blanking mechanism of the present utility model;

fig. 4 is a cross-sectional view of a cartridge of the present utility model.

In the figure: 100. a housing; 101. a buoyancy plate; 102. a pull ring; 103. a water inlet and a water outlet; 104. a filter screen;

201. a storage box; 202. a blanking disc; 203. a feed opening; 204. a mounting ring; 205. inserting blocks; 206. a top plate; 207. a motor I; 208. a rotating rod; 209. anti-blocking brush; 210. a mounting groove; 211. a chute; 212. a top block; 213. a fixing groove; 214. a mounting shaft; 215. a handle;

301. a motor II; 302. a rotating shaft; 303. a stirring rod; 304. a waterproof shell.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

Hereinafter, an embodiment of the present utility model will be described in accordance with its entire structure.

1-4, two groups of buoyancy plates 101 are arranged on the side wall of a shell 100, a pull ring 102 is arranged on the outer wall of the shell 100, and a material sucking mechanism is arranged at the top end of the shell 100;

the unloading mechanism includes storage box 201, the top of casing 100 is equipped with storage box 201, the inner wall bottom of storage box 201 is equipped with feed tray 202, multiunit feed opening 203 has been seted up on the top of feed tray 202, and multiunit feed opening 203 runs through in the top outer wall of casing 100, the top of casing 100 is equipped with collar 204, the inner wall sliding connection of collar 204 has plug 205, the top of plug 205 is equipped with roof 206, the top of roof 206 is equipped with motor 207 No. one, the inner wall rotation of plug 205 is connected with bull stick 208, and the output of motor 207 is connected in the one end of bull stick 208, the one end of bull stick 208 extends to the inside of storage box 201, the one end lateral wall that the bull stick 208 extends to the inside of storage box 201 is equipped with two sets of anti-blocking brush 209, and the bottom of anti-blocking brush 209 extends to the inside of feed opening 203, two sets of mounting grooves 210 have been seted up to the inner wall of collar 204, the spout 211 has been seted up on the top of two sets of mounting grooves 211, the inner wall sliding connection of two sets of spout 211 has roof 212, the top of two sets of roof 212 has the spring, and the other end of spring is connected in the inner wall of spout 211 has bull stick 208, the bottom of two sets of 205 has two sets of mounting grooves 213, two sets of mounting shafts 213 have been set up the top shafts 214, two sets of mounting shafts 213 have been matched with two sets of handles 206.

After the storage box 201 is filled with the culture medium, the culture medium slowly enters the shell 100 through the feed opening 203, the anti-blocking brush 209 continuously rotates to brush the feed opening 203, the condition that the culture medium cannot smoothly enter the shell 100 due to the fact that the culture medium is blocked in the feed opening 203 is avoided, after the culture medium in the storage box 201 is not filled, only the lifting handle 215 is required to be lifted upwards, the lifting handle 215 drives the top plate 206 to move upwards, the top plate 206 drives the two groups of mounting shafts 214 to be separated from the fixing grooves 213 through the inserting blocks 205 to enter the fixing grooves 210, at the moment, the inserting blocks 205 are rotated, the mounting shafts 214 rotate along the fixing grooves 210, the lifting handle 215 can be lifted upwards to drive the inserting blocks 205 to be pulled out of the fixing rings 204 when the mounting shafts 214 are contacted with the side wall of the fixing grooves 210, at the moment, the two groups of mounting shafts 214 can be aligned with the mounting grooves 210 through the mounting rings 204, the two groups of the mounting shafts 214 are only required to be inserted into the fixing grooves 210 after the culture medium is added, the inserting blocks 205 are rotated along the fixing grooves 210, the inserting blocks 205 drive the two groups of mounting shafts 214 to rotate along the fixing grooves 210, when the mounting shafts 214 reach the top plate 212, the top plate 212 can be fixed to the side of the top plate 212 through the fixing grooves 213, and the top plate 201 can be added to the top plate 101, and the top plate can be conveniently added to the culture medium can be conveniently and added into the storage box 201.

Referring to fig. 1-2, a second motor 301 is disposed at the bottom end of the housing 100, a rotating shaft 302 is disposed at an output end of the second motor 301, one end of the rotating shaft 302 extends into the housing 100, a plurality of groups of stirring rods 303 are disposed on a side wall of one end of the rotating shaft 302 extending into the housing 100, a waterproof shell 304 is disposed at the bottom end of the housing 100, the second motor 301 is disposed in the waterproof shell 304, two groups of water inlets 103 are disposed on a side wall of the housing 100, and a filter screen 104 is disposed on inner walls of the two groups of water inlets 103.

The water flows to drive the water flow to enter and exit the shell 100 through the water inlet 103, after the water flow enters the shell 100, microorganisms in the water flow can absorb the culture medium left in the shell 100, and the motor No. two 301 is started, the motor No. two 301 can drive the stirring rod 303 to rotate through the rotating shaft 302, so that the water flow in the shell 100 is stirred, microorganisms cannot eat due to the fact that the culture medium is submerged, and sundries and fishes in the water are prevented from entering the shell 100 due to the arrangement of the filter screen 104.

In use, the storage box 201 is filled; the culture medium, start motor 207, motor 207 drives through bull stick 208 prevents stifled brush 209 and rotates, prevent that stifled brush 209 from continuously rotating and brushing feed opening 203, prevent that the culture medium from being blocked up and leading to the unable smooth entering into of culture medium in casing 100 in feed opening 203, the water flows and drives rivers through inlet outlet 103 business turn over casing 100, after rivers get into casing 100, the microorganism in the rivers can absorb the culture medium that leaves in the casing 100, and start motor 301 No. two, motor 301 accessible pivot 302 drives puddler 303 and rotates, thereby make the rivers in the casing 100 stirred, prevent that the culture medium from sinking and leading to microorganism to not eat.

Although embodiments of the utility model have been shown and described, the detailed description is to be construed as exemplary only and is not limiting of the utility model as the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples, and modifications, substitutions, variations, etc. may be made in the embodiments as desired by those skilled in the art without departing from the principles and spirit of the utility model, provided that such modifications are within the scope of the appended claims.

Claims (6)

1. An aquatic ecology prosthetic devices of built-in microorganism generation structure, includes casing (100), its characterized in that: two groups of buoyancy plates (101) are arranged on the side wall of the shell (100), a pull ring (102) is arranged on the outer wall of the shell (100), and a material sucking mechanism is arranged at the top end of the shell (100);

the blanking mechanism comprises a storage box (201), the top end of the shell (100) is provided with the storage box (201), the bottom end of the inner wall of the storage box (201) is provided with a blanking disc (202), the top end of the blanking disc (202) is provided with a plurality of groups of blanking openings (203), the plurality of groups of blanking openings (203) penetrate through the outer wall of the top end of the shell (100), and the top end of the shell (100) is provided with a mounting ring (204).

2. The water ecology restoration device with built-in microorganism generating structure according to claim 1, wherein: inner wall sliding connection of collar (204) has inserted block (205), the top of inserted block (205) is equipped with roof (206), the top of roof (206) is equipped with motor (207) No. one, the inner wall rotation of inserted block (205) is connected with bull stick (208), and the output of motor (207) No. one is connected in the one end of bull stick (208), the one end of bull stick (208) extends to the inside of storage box (201), the one end lateral wall that bull stick (208) extends to the inside of storage box (201) is equipped with two sets of anti-blocking brush (209), and the bottom of anti-blocking brush (209) extends to the inside of feed opening (203).

3. The water ecology restoration device with built-in microorganism generating structure according to claim 1, wherein: two sets of mounting grooves (210) have been seted up to the inner wall of collar (204), two sets of spout (211) have been seted up on the top of mounting groove (210), two sets of inner wall sliding connection of spout (211) has kicking block (212), two sets of the top of kicking block (212) is equipped with the spring, and the other end of spring is connected in the inner wall of spout (211), two sets of fixed slot (213) have been seted up to the bottom of mounting groove (210).

4. The water ecology restoration device with built-in microorganism generating structure according to claim 2, wherein: two groups of mounting shafts (214) are arranged on the side wall of the insertion block (205), the two groups of mounting shafts (214) are matched with the two groups of mounting grooves (210), and two groups of handles (215) are arranged on the top end of the top plate (206).

5. The water ecology restoration device with built-in microorganism generating structure according to claim 1, wherein: the bottom of casing (100) is equipped with No. two motors (301), no. two motor (301)'s output is equipped with pivot (302), and the one end of pivot (302) extends to the inside of casing (100), and multiple pivot (302) extend to the inside one end lateral wall of casing (100) and are equipped with multiunit puddler (303), the bottom of casing (100) is equipped with waterproof shell (304), and No. two motor (301) are located the inside of waterproof shell (304).

6. The water ecology restoration device with built-in microorganism generating structure according to claim 1, wherein: two groups of water inlets and outlets (103) are arranged on the side wall of the shell (100), and filter screens (104) are arranged on the inner walls of the two groups of water inlets and outlets (103).