CN218007723U - Sea water filtering and taking device for abalone culture - Google Patents

Abstract

The utility model relates to an abalone cultured equipment field, concretely relates to sea water filters water intake device for abalone culture, including sedimentation tank and husky well of straining, the sedimentation tank includes the main cell body, arranges sediment belt feeder, delivery wagon, the surface of water and scrapes pole, pivot and driving motor, and husky well of straining includes the well of intaking and goes out the well. The water surface scraping rod rotates on the liquid level surface of the main tank body, floats the floater of the liquid level surface, and the residue in the main tank body naturally precipitates to the bottom of the main tank body under the action of gravity, and is discharged out of the main tank body under the conveying of the slag discharge belt conveyor, the residue at the bottom of the main tank body is prevented from being accumulated, the precipitated water enters from the water inlet well, the precipitated filter medium is discharged from the water outlet pipe of the water outlet well, the filtering efficiency is high, the filtering mode is adopted, the filter medium in the water outlet well is not easy to block under the action of gravity, and the water inlet well can be conveniently cleaned on the surface of the filter medium after being opened.

Description

Seawater filtering and taking device for abalone culture

Technical Field

The utility model relates to an abalone cultured equipment field, specificly relate to an abalone is bred and is filtered water intake device with sea water.

Background

In recent years, abalone culture is more and more difficult, water source pollution is a great problem at present except for various high-rise diseases, feed, climate and the like, coastal seawater in China is interfered by chemical wastewater, domestic sewage, culture wastewater and other problems at present, ammonia nitrogen and nitrite can be detected by sea water, the water quality problem causes the walking difficulty of the culture and seedling industry, and the culture and seedling survival rate is gradually reduced. Therefore, the seawater filtering system becomes the key for improving the water quality, the existing seawater filtering system usually adopts a sedimentation tank for sedimentation firstly, then the sedimentation tank is filtered again through a sand filtering well, the seawater after micro impurities are filtered is obtained preliminarily, and the sterilization and biological treatment are further carried out to obtain the aquaculture seawater with the water quality reaching the standard. The sedimentation tank is used for storing seawater, standing, settling suspended matters such as silt and the like, can be independently arranged, and can also be used as the sedimentation tank, the sand filter well of the sand filter well performs first-stage filtration on seawater in the sedimentation tank, and the silt, the suspended matters, algae, harmful aquatic organisms and the like in water are filtered. Traditional sedimentation tank, the mode that its bottom residue was taken out with the sludge pump is clear away, but because the grit piles up in the bottom residue often, can cause the sludge pump to block up and damage, and if adopt the mode of the clear silt of the water in the main tank body of clearing, need stop the filtering operation again, and consuming time is long, and then influences filtration efficiency, in addition, its surperficial floater of current sedimentation tank needs artifical salvage, wastes time and energy, in view of this, the present case produces from this.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide an abalone is bred and is filtered water intake device with sea water to solve the problem that proposes in the background art.

In order to solve the technical problem, the utility model discloses a technical scheme as follows: the utility model provides an abalone breed with sea water filtration water intake device which characterized in that: the sand filtering well comprises a sedimentation tank and a sand filtering well, wherein the sedimentation tank comprises a main tank body, a slag discharge belt machine, a conveying vehicle, a water surface scraping rod, a rotating shaft and a driving motor, the bottom end of the slag discharge belt machine is positioned at the bottom of the main tank body, the top of the slag discharge belt machine extends to the outside of the main tank body, the conveying vehicle is positioned below the top of the slag discharge belt machine, a cylindrical cavity is arranged inside the main tank body, the rotating shaft is positioned at the center of the top of the main tank body, the water surface scraping rod extends to the side wall of the main tank body from the rotating shaft, the side wall of the main tank body is provided with a floater removing port corresponding to the position of the water surface scraping rod, the floater removing port is positioned above the slag discharge belt machine, the sand filtering well comprises an inlet well and an outlet well, the top of the inlet well is provided with a water inlet cover plate, the top of the outlet well is provided with a water outlet cover plate, the water outlet cover plate is arranged on the water outlet cover plate, and the bottoms of the inlet well and the outlet well are communicated with the bottoms of the outlet well.

Preferably, an outer tank body is arranged on one side of the main tank body close to the deslagging belt conveyor, the bottom of the outer tank body is communicated with the main tank body, and the deslagging belt conveyor extends from the bottom of the main tank body to the outer tank body.

Preferably, the bottom of the main tank body is inclined downwards from the water inlet end to the end of the slag discharging belt machine.

Preferably, a conveying platform is arranged on one side, close to the slag discharge belt conveyor, of the outer portion of the main tank body, the conveying platform is located below the top end of the belt conveyor, and the conveying vehicle is placed on the conveying platform.

Preferably, a track is arranged on the conveying platform, and the conveying vehicle is arranged on the track in a sliding mode.

Preferably, a water inlet is formed in one side, far away from the belt conveyor, of the main tank body and close to the top, and a water outlet is formed in the main tank body below the water surface scraping rod.

Preferably, one side of the main tank body, which is close to the water inlet, is provided with a slag flushing pipe, and the water outlet end of the slag flushing pipe is close to the bottom of the tank.

Preferably, the top of the main tank body is provided with an overhaul platform, the driving motor is fixedly arranged on the overhaul platform, and the overhaul platform is provided with a handrail.

Preferably, be equipped with coarse sand in the well of intaking and filter the frame, from up stacking fine sand in proper order down in the well of going out filters frame, diatomaceous earth and active carbon and filters the frame.

Preferably, the end part of the water inlet well is lower than the top part of the water outlet well.

According to the above description, the utility model provides an abalone is bred and is filtered water intake device with sea water has following beneficial effect: the water surface scraping rod rotates on the liquid level surface of the main tank body, floats the floater of the liquid level surface, and the residue in the main tank body naturally precipitates to the bottom of the main tank body under the action of gravity, and is discharged out of the main tank body under the conveying of the slag discharge belt conveyor, the residue at the bottom of the main tank body is prevented from being accumulated, the precipitated water enters from the water inlet well, the precipitated filter medium is discharged from the water outlet pipe of the water outlet well, the filtering efficiency is high, the filtering mode is adopted, the filter medium in the water outlet well is not easy to block under the action of gravity, and the water inlet well can be conveniently cleaned on the surface of the filter medium after being opened.

Drawings

FIG. 1 is a schematic structural diagram of a sedimentation tank.

Fig. 2 is a schematic structural diagram of a sand filtration well.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

As shown in fig. 1 and 2, the utility model discloses sea water filters water intake device for abalone culture, including sedimentation tank and sand filtration well, the sedimentation tank includes main cell body 11, arrange sediment belt feeder 12, delivery wagon 13, surface of water scraping rod 14, pivot 15 and driving motor 16, the bottom of arranging sediment belt feeder 12 is located main cell body 11 bottom, the top of arranging sediment belt feeder 12 extends to the main cell body 11 outside, delivery wagon 13 is located arranges sediment belt feeder 12 top below, the inside cylindrical cavity that is of main cell body 11, pivot 15 is located the center at main cell body 11 top, surface of water scraping rod 14 extends to main cell body 11 lateral wall from pivot 15, main cell body 11 lateral wall is equipped with the floater removal mouth 111 that corresponds with surface of water scraping rod 14 position, floater removal mouth 111 is located sediment belt feeder 12 top, sand filtration well includes inlet well 21 and outlet well 22, inlet well 21 top is equipped with inlet cover plate 23, be equipped with inlet tube 231 on the inlet cover plate 23, outlet well 22 top is equipped with outlet cover plate 24, be equipped with outlet pipe 241 on the outlet cover plate 24, the bottom of inlet well 21 and outlet well 22 communicate mutually. The liquid level in the main body 11 is kept at the height of the water surface scraping rod 14, the water surface scraping rod 14 rotates on the liquid level surface of the main tank body 11 to scrape off floating objects on the liquid level surface, residues in the main tank body 11 naturally settle to the bottom of the main tank body 11 under the action of gravity and are conveyed by the residue discharge belt conveyor 12 to be discharged out of the main tank body 11, so that the accumulation of the residues at the bottom of the main tank body 11 is avoided, the capacity of the main tank body 11 is influenced, the traditional bottom residues are pumped out by a sludge pump, but the blockage and damage of the sludge pump can be caused due to the accumulation of gravels in the bottom residues, and the filtering operation needs to be stopped by adopting a mode of completely discharging water and clear sludge in the main tank body 11, the consumed time is long, and the filtering efficiency is further influenced; the water after the sediment gets into from the inlet well 21, discharges from outlet pipe 241 of outlet well 22 behind inside filter medium, and filtration efficiency is high, and adopts the filtration mode from bottom to top, and under the action of gravity, its inside filter medium is difficult for blockking up, and can conveniently clear up the filter medium surface after inlet well 21 is opened.

An outer tank body 17 is arranged on one side of the main tank body 11 close to the deslagging belt conveyor 12, the bottom of the outer tank body 17 is communicated with the main tank body 11, and the deslagging belt conveyor 12 penetrates through a communication port of the outer tank body 17 from the bottom of the main tank body 11 and extends to the outer tank body 17. One side of the outer tank body 17 is a slope, the deslagging belt conveyor 12 is inclined downwards to the bottom of the main tank body 11 along the slope, two ends of the floater removing port 111 are communicated with the main tank body 11 and the outer tank body 17, floaters fall into the water surface in the outer tank body 17 after being removed from the floater removing port 111, the belt surface of the deslagging belt conveyor 12 is provided with a raised line for driving the floaters, and the floaters float to the belt surface under the driving of water flow and are taken out of the outer tank body 17 by the belt conveyor. The bottom of the main tank body 11 inclines downwards from the water inlet end to the end of the deslagging belt conveyor 12. The bottom of the main tank body 11 inclines downwards towards the slag discharge belt conveyor 12, and the sediments are driven by gravity and water flow to move towards the slag discharge belt conveyor 12, so that slag is discharged by the slag discharge belt conveyor 12 conveniently.

A conveying platform 18 is arranged outside the main tank body 11 and close to one side of the slag discharge belt conveyor 12, the conveying platform 18 is positioned below the top end of the belt conveyor, and a conveying vehicle 13 is placed on the conveying platform 18.

The conveying platform 18 is provided with a track 181, and the conveying vehicle 13 is slidably arranged on the track 181. The conveying platform 18 and the track 181 facilitate the movement of the conveying vehicle 13 and the transfer of sediments at the bottom of the pool.

The tail end of the water surface scraping rod 14 is provided with a scraping plate, rubber is arranged on the scraping plate, the water surface scraping rod 14 rotates slowly under the driving of a driving motor 16, the rotation speed is one circle every 5-8 minutes, the rotation speed cannot be too high, the phenomenon that water flow near the water surface is too high and floating objects cannot be gathered is avoided, floating objects such as plastics or other organic matters on the water surface are gathered by the water surface scraping rod 14, the floating objects move towards the outer side along the water surface scraping rod 14 and are finally discharged from a floating object discharge port 111, the floating objects fall into a water area above the slag discharge belt conveyor 12 and are discharged out of an outer pool body 17 under the driving of the slag discharge belt conveyor 12.

A water inlet 112 is arranged on one side of the main tank body 11 far away from the belt conveyor near the top, and a water outlet 113 is arranged on the main tank body 11 below the water surface scraping rod 14. The water inlet 112 is used for conveying seawater into the main tank body 11, and the water outlet 113 is used for discharging the seawater settled at the upper part in the main tank body 11.

The main tank body 11 is provided with a slag flushing pipe 114 at one side close to the water inlet 112, and the water outlet end of the slag flushing pipe 114 is close to the bottom of the tank. After the slag flushing pipe 114 is opened, water is flushed towards the bottom of the main tank body 11 to drive the slag at the bottom to flow downwards along the slope, so that the sediment is prevented from being accumulated.

An overhaul platform 115 is erected at the top of the main tank body 11, a driving motor 16 is fixedly arranged on the overhaul platform 115, and a handrail is arranged on the overhaul platform 115. The overhaul platform 115 spans across the top of the main tank body 11 for observing the surface of the main tank body 11 and for overhauling and maintaining the motor and the water surface scraping rod 14 and the like.

A coarse sand filter frame 26 is arranged in the water inlet well 21, and a fine sand filter frame 27, a diatomite filter frame 28 and an active carbon filter frame 29 are sequentially superposed in the water outlet well 22 from bottom to top. One surfaces of the coarse sand filter frame 26 and the fine sand filter frame 27, which face the communication ports of the water inlet well 21 and the water outlet well 22, are provided with gaps for water to pass through, the bottoms of the diatomite filter frame 28 and the activated carbon filter frame 29 are provided with gaps for water to pass through, the gaps are formed by cross bars which are arranged at intervals, coarse sand of 8-16mm, fine sand of 0.8-1.2mm, diatomite and activated carbon are respectively filled in the coarse sand filter frame 26, the fine sand filter frame 27, the diatomite filter frame 28 and the activated carbon filter frame 29, the coarse sand, the fine sand, the diatomite and the activated carbon can be packaged by nylon nets with the aperture of 0.5-1.2mm, and water is sequentially filtered layer by the coarse sand, the fine sand, the diatomite and the activated carbon.

The end of the inlet well 21 is lower than the top of the outlet well 22. A water storage cavity is reserved between the water inlet cover plate 23 and the coarse sand filter frame 26, water flowing out of the sedimentation tank is pumped into a water inlet pipe 231 of the water inlet cover plate 23 through a water pump and then enters the water storage cavity, the water passes through coarse sand, fine sand, diatomite and active carbon in sequence under the action of water pressure, the water inlet cover plate 23 can be opened to clean or replace the surface of the coarse sand, the water inlet cover plate 23 can be opened, the inner fine sand filter frame 27, the diatomite filter frame 28 and the active carbon filter frame 29 are lifted through lifting tools such as hangers, and the inner media can be replaced.

In the description of the present invention, it is to be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrases "comprising one of 8230; \8230;" 8230; "does not exclude the presence of additional like elements in a process, method, article, or apparatus that comprises the element.

In the description of the present invention, the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and therefore, should not be construed as limiting the present invention, and the contents not described in detail in the present specification belong to the prior art that is well known to those skilled in the art.

In the description of the present invention, it should be noted that, unless explicitly stated or limited otherwise, the terms "mounted," "connected" and "disposed" are to be interpreted broadly, and may be, for example, fixedly connected, disposed, detachably connected, disposed, or integrally connected and disposed; the utility model discloses the model with electrical apparatus that provides in only supplies the reference. For those skilled in the art, different types of electrical appliances with the same function can be replaced according to actual use conditions, and for those skilled in the art, the specific meaning of the above terms in the present invention can be understood in specific situations.

The aforesaid is only a plurality of concrete implementation manners of the utility model, nevertheless the utility model discloses a design concept is not limited to this, and the ordinary use of this design is right the utility model discloses carry out immaterial change, all should belong to the act of infringement the protection scope of the utility model.

Claims (10)

1. The utility model provides an abalone is bred and filters water intake device with sea water which characterized in that: including sedimentation tank and sand filtration well, the sedimentation tank includes the main cell body, arranges sediment belt feeder, delivery wagon, the surface of water and scrapes pole, pivot and driving motor, arrange the bottom of sediment belt feeder and be located main cell body bottom, arrange the top of sediment belt feeder and extend to the main cell body outside, the delivery wagon is located sediment belt feeder top below, the inside cylindrical cavity that is of main cell body, the pivot is located the center at main cell body top, the surface of water scrapes the pole and extends to main cell body lateral wall from the pivot, and main cell body lateral wall is equipped with and scrapes the floater of pole position correspondence with the surface of water and gets rid of the mouth, and the floater is got rid of the mouth and is located sediment belt feeder top, sand filtration well includes intake well and outlet well, and the intake well top is equipped with into water apron, is equipped with the inlet tube on the intake cover plate, and the outlet well top is equipped with the water apron, is equipped with the outlet pipe on the outlet cover plate, the bottom of intake well and outlet well is linked together.

2. The seawater filtering and taking device for abalone culture according to claim 1, characterized in that: an outer tank body is arranged on one side, close to the deslagging belt conveyor, of the main tank body, the bottom of the outer tank body is communicated with the main tank body, and the deslagging belt conveyor extends from the bottom of the main tank body to the outer tank body.

3. The seawater filtering and taking device for abalone culture according to claim 1, characterized in that: the bottom of the main tank body inclines downwards from the water inlet end to the end of the slag discharging belt machine.

4. An abalone culturing seawater filtering/taking device according to claim 1, characterized in that: and a conveying platform is arranged on one side, close to the slag discharge belt conveyor, of the outside of the main tank body, the conveying platform is located below the top end of the belt conveyor, and the conveying vehicle is placed on the conveying platform.

5. An abalone culture sea water filtering/taking device according to claim 4, characterized in that: the conveying platform is provided with a track, and the conveying vehicle is arranged on the track in a sliding mode.

6. The seawater filtering and taking device for abalone culture according to claim 1, characterized in that: and a water inlet is formed in one side, far away from the belt conveyor, of the main tank body and close to the top, and a water outlet is formed in the main tank body below the water surface scraping rod.

7. The seawater filtering and taking device for abalone culture according to claim 6, comprising: a slag flushing pipe is arranged on one side of the main tank body, which is close to the water inlet, and the water outlet end of the slag flushing pipe is close to the tank bottom.

8. The seawater filtering and taking device for abalone culture according to claim 1, characterized in that: the maintenance platform is erected at the top of the main tank body, the driving motor is fixedly arranged on the maintenance platform, and a handrail is arranged on the maintenance platform.

9. The seawater filtering and taking device for abalone culture according to claim 1, characterized in that: the water inlet well is internally provided with a coarse sand filter frame, and the water outlet well is internally provided with a fine sand filter frame, a diatomite filter frame and an active carbon filter frame which are sequentially superposed from bottom to top.

10. An abalone culturing seawater filtering/taking device according to claim 9, characterized in that: the end part of the water inlet well is lower than the top of the water outlet well.

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