CN108483535B

CN108483535B - Dirt collecting and discharging assembly

Info

Publication number: CN108483535B
Application number: CN201810536515.1A
Authority: CN
Inventors: 罗鹏; 于宗赫; 向雪婷; 任景枝
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-05-30
Filing date: 2018-05-30
Publication date: 2024-05-28
Anticipated expiration: 2038-05-30
Also published as: CN108483535A

Abstract

The invention discloses a sewage collection and discharge assembly, and belongs to the field of aquaculture equipment. The utility model provides a collection dirt blowdown assembly, includes the first blow off pipe that can discharge big granule and the second blow off pipe that can discharge the granule, still including being used for setting up in the breed pond bottom, all being the back taper and the outer vertebra of blowdown that both vertebrae bottom edges are connected, the cone top of the outer vertebra of blowdown is located the below of the cone top of the cone in the blowdown, is equipped with a plurality of through-holes that are used for with the breed pond and the outer vertebra intercommunication of blowdown and can pass through the granule on the cone lateral wall in the blowdown, the cone top of the outer vertebra of blowdown in the blowdown and blowdown be equipped with respectively with the drain that first blow off pipe and second blow off pipe are linked together. The sewage collecting and discharging assembly has the characteristic of being capable of rapidly and separately discharging large-particle pollutants in a culture pond.

Description

Dirt collecting and discharging assembly

Technical Field

The invention relates to aquaculture equipment, in particular to a sewage collection and discharge assembly.

Background

The aquatic product is an important source of high-quality protein for human beings, is rich in high-quality protein, amino acid, vitamin and mineral substances, and particularly contains leucine and lysine with high human body demand. The connective tissue content in the aquatic product is far less than that of livestock meat, the muscle fiber of fish is shorter, the protein tissue is loose, the moisture content is high, and the aquatic product is easy to be digested and absorbed by human body. As people's income increases, more and more chinese people begin to take nutritional needs as the first need for food consumption, which has led to a gradual expansion of the market for seafood and consumer groups.

In traditional aquatic product cultivation, a cannula inserting mode or a manual salvage mode is generally adopted for pollution discharge. The mode blowdown of intubate utilizes the pipeline that will cultivate the inside and the outside intercommunication of pond promptly, and dead fish, dead shrimp, the biggest particulate pollutant such as fish scale in the pond is moved to the pipeline through the manual work again outside the pond of breeding. The problems of the traditional two pollution discharge modes are as follows: 1. in the process, the pollutants are required to be manually moved, so that the operation is inconvenient and the pollution discharge speed is low; 2. sometimes a launch operation is required resulting in further contamination of the water in the tank by agitation. In addition, in order to avoid polluting the environment, the water for cultivation with large-particle pollutants such as dead fish, dead shrimp, fish scales and the like cannot be directly discharged into rivers or other water sources.

Therefore, how to collect and separate discharge large particle pollutants in a culture pond is a urgent problem to be solved.

Disclosure of Invention

The invention aims to provide a sewage collecting and discharging assembly which has the characteristic of being capable of rapidly and separately discharging large-particle pollutants in a culture pond.

The technical scheme of the invention is as follows:

The utility model provides a collection dirt blowdown assembly, includes the first blow off pipe that can discharge big granule and the second blow off pipe that can discharge the granule, still including being used for setting up in the breed pond bottom, all being the back taper and the outer vertebra of blowdown that both vertebrae bottom edges are connected, the cone top of the outer vertebra of blowdown is located the below of the cone top of the cone in the blowdown, is equipped with a plurality of through-holes that are used for with the breed pond and the outer vertebra intercommunication of blowdown and can pass through the granule on the cone lateral wall in the blowdown, the cone top of the outer vertebra of blowdown in the blowdown and blowdown be equipped with respectively with the drain that first blow off pipe and second blow off pipe are linked together.

Further, the drain outlets of the inner drain cone and the outer drain cone are respectively provided with a first drain valve and a second drain valve for controlling the opening or closing of the drain outlets.

Further, the first blow-down valve and the second blow-down valve comprise one of an electrically controlled one-way valve or a stone ball connected with a pull rope.

Furthermore, the pollution discharge inner cone is a structure with the acute included angle between the conical surface and the horizontal plane gradually increasing from top to bottom.

Furthermore, the blowdown inner cone is provided with a plurality of through pipes which are higher than the conical surface of the blowdown inner cone, the through pipes are uniformly distributed around the blowdown outlet of the blowdown inner cone, and each through hole is arranged on one through pipe.

Further, the through hole is a structure which is obliquely arranged clockwise around the sewage draining port of the sewage draining inner cone.

Further, the device comprises a lifting partition plate device and a lifting partition net device which are both used for isolating the space in the culture pond and can work independently, and the inner cone and the outer cone of the sewage are positioned on the inner sides of the lifting partition plate device and the lifting partition net device.

Further, the lifting baffle device is of a water-tight structure and comprises an annular baffle and a plurality of baffle hydraulic pumps which are connected with the bottom of the baffle and can drive the baffle hydraulic pumps to lift; the lifting screen device is of a water-permeable screen structure and comprises an annular screen and a plurality of screen hydraulic pumps which are connected with the bottom of the screen and can drive the screen to lift.

The invention has the beneficial effects that:

1. According to the sewage collection and drainage assembly, small-particle pollutants (waste baits, fish and shrimp feces) and pond water can be discharged through the communication of the outer drainage cone and the second drainage pipe, wherein the culture pond is communicated with the outer drainage cone through the through holes on the inner drainage cone, meanwhile, large-particle pollutants are collected on the conical surface of the inner drainage cone through the acting force of water flow above the inner drainage cone when the outer drainage cone drains water, and then the large-particle pollutants (dead fish, dead shrimp and fish scales) are further discharged through the communication of the inner drainage cone and the first drainage pipe, so that no personnel are required to enter the culture pond in the whole process, and no additional pollution or negative influence is generated;

2. the adopted pollution discharge inner cone is a structure with the included angle between the conical surface and the horizontal plane gradually increasing from top to bottom, namely the conical surface of the pollution discharge inner cone is an upward convex curved surface, and the structure enables large-particle pollutants to be more easily collected in the middle of the pollution discharge inner cone when the pollution discharge outer cone discharges water;

3. The adopted through holes are of structures which are obliquely arranged in the clockwise direction around the sewage outlet, and because the water flow in the northern hemisphere of the earth forms a vortex rotating anticlockwise, the clockwise inclined through holes are beneficial to the anticlockwise discharge of the water, so that the sewage collecting and draining assembly is easy to form a water flow vortex when draining, and particle pollutants are further gathered in the middle of the inner cone of the sewage under the action of the water flow vortex and are discharged;

4. The lifting partition plate device and the lifting partition net device which can work independently are adopted, wherein the lifting partition plate device can separate water, fish and shrimp and pollutants inside and outside the lifting partition plate device, and the lifting partition net device can separate the fish and shrimp and the pollutants inside and outside the lifting partition plate device, so that the lifting partition plate device and the lifting partition net device of the sewage collection and drainage assembly are matched with each other by utilizing feeding on the periphery of a culture pond, and sewage drainage operation or fishing operation for removing small fishes can be carried out in the culture pond in which the fish and the shrimp are cultured.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings which are required in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only embodiments of the invention and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a cross-sectional view of a dirt collection and drainage assembly in accordance with an embodiment of the present invention;

FIG. 2 is a cross-sectional view of a dirt collection and drainage assembly baffle and baffle raised in accordance with an embodiment of the present invention;

FIG. 3 is a top view of a dirt collection and drainage assembly according to an embodiment of the present invention.

Wherein: 1-first blow-down pipe, 2-second blow-down pipe, 3-blowdown inner cone, 4-blowdown outer cone, 5-lift baffle device, 6-lift separates the net device, 11-first blow-down valve, 21-second blow-down valve, 31-through hole, 32-siphunculus, 51-baffle, 52-baffle hydraulic pump, 61-separates the net, 62-separates the net hydraulic pump.

Detailed Description

The technical scheme of the present invention will be described in further detail below with reference to the specific embodiments, but the present invention is not limited thereto.

Examples

Referring to fig. 1 to 3, the sewage collecting and draining assembly comprises a first sewage draining pipe 1 capable of discharging large particles, a second sewage draining pipe 2 capable of discharging small particles, a sewage draining inner cone 3 and a sewage draining outer cone 4 which are arranged at the bottom of a culture pond and are in reverse taper shapes and are connected with the two cone bottom edges, the cone top of the sewage draining outer cone 4 is positioned below the cone top of the sewage draining inner cone 3, a plurality of through holes 31 which are used for communicating the culture pond with the sewage draining outer cone 4 and can pass through the small particles are formed in the side wall of the sewage draining inner cone 3, and the cone tops of the sewage draining inner cone 3 and the sewage draining outer cone 4 are respectively provided with sewage draining outlets which are communicated with the first sewage draining pipe 1 and the second sewage draining pipe 2.

The sewage collecting and draining assembly can drain small particle pollutants and pond water by communicating the outer sewage draining cone 4 with the second sewage draining pipe 2, wherein the culture pond is communicated with the outer sewage draining cone 4 through the through hole 31 on the inner sewage draining cone 3. Meanwhile, when the drainage outer cone 4 drains water, the acting force of the water flow above the drainage inner cone 3 collects large-particle pollutants on the conical surface of the drainage inner cone 3, and then the large-particle pollutants are further communicated with the first drainage pipe 1 through the drainage inner cone 3. The whole process does not need personnel to enter the culture pond, and no additional pollution and negative influence are generated. Therefore, the sewage collecting and discharging assembly has the characteristics of capability of rapidly and separately discharging large-particle pollutants in a culture pond, high sewage discharging efficiency and easiness in pollutant treatment.

In this embodiment, the drain outlets of the drain inner cone 3 and the drain outer cone 4 are respectively provided with a first drain valve 11 and a second drain valve 21 for controlling the opening or closing thereof. The first blow-down valve 11 and the second blow-down valve 21 each comprise one of an electrically controlled one-way valve or a stone ball connected with a pull rope. When the first blow-down valve 11 is opened, the blow-down inner cone 3 discharges water mixed with large particle pollutants, and when the second blow-down valve 21 is opened, the blow-down outer cone 4 discharges small particle pollutants and pool water.

In this embodiment, the inner cone 3 of the sewage discharge is a structure in which the included angle between the conical surface and the horizontal plane is gradually increased from top to bottom, and the structure enables large-particle pollutants to be more easily collected in the middle of the inner cone 3 of the sewage discharge when the outer cone 4 of the sewage discharge discharges water.

In this embodiment, the blowdown inner cone 3 is provided with a plurality of through pipes 32 higher than the conical surface thereof, the through pipes 32 are uniformly distributed around the blowdown outlet of the blowdown inner cone 3, and each through hole 31 is arranged on one through pipe 32. The through hole 31 is arranged on the through pipe 32 which is higher than the conical surface of the pollution discharge inner cone 3, so that particles can be prevented from blocking the through hole 31.

In this embodiment, the through hole 31 is inclined in a clockwise direction around the drain opening of the drain cone 3. Because the water flow forms a counter-clockwise rotating vortex in the northern hemisphere of the earth, the clockwise inclined through holes 31 facilitate the counter-clockwise discharge of water, so that the water vortex is easy to form when the sewage collecting and draining assembly drains water, and the particulate pollutants are further collected in the middle of the sewage draining inner cone 3 under the action of the water vortex so as to be discharged. Similarly, in the case of the southern hemisphere of the earth, the through hole 31 is inclined in a counterclockwise direction around the drain.

In this embodiment, the lifting partition board device 5 and the lifting partition net device 6 are used for isolating the space in the culture pond and can work independently, and the blowdown inner cone 3 and the blowdown outer cone 4 are located inside the lifting partition board device 5 and the lifting partition net device 6.

In this embodiment, the lifting partition device 5 is a water-tight structure, and includes an annular partition 51 and a plurality of partition hydraulic pumps 52 connected to the bottom of the partition 51 and capable of driving the partition hydraulic pumps to lift; the lifting screen device 6 is a water-permeable screen structure and comprises an annular screen 61 and a plurality of screen hydraulic pumps 62 which are connected with the bottom of the screen 61 and can drive the screen 61 to lift.

In this embodiment, the lifting partition device 5 and the lifting partition device 6 which can work independently are adopted, wherein the lifting partition device 5 can separate water, fish and shrimp and pollutants on the inner side and the outer side of the lifting partition device, and the lifting partition device 6 can separate the fish and shrimp and pollutants on the inner side and the outer side of the lifting partition device, so that the lifting partition device 5 and the lifting partition device 6 of the pollution collecting and discharging assembly are matched with each other by feeding around a culture pond, and pollution discharging operation or fishing operation for discharging small fishes can be performed in the culture pond in which the fish and the shrimp are cultured. For example, when the operation of draining the water in the culture pond in which the fish and the shrimp are cultured is performed, the second drain valve 21 is first opened to drain the water in the culture pond to a half height, the pollutants at this time are accumulated in the drain cone 3 by the effect of the water in the pond half before the drain, then the living fish and the shrimp are attracted to the outside of the lifting partition plate device 5 by feeding the bait around the culture pond, the lifting partition plate device 5 is lifted to separate the pollutants from the fish and the shrimp, and finally the first drain valve 11 is opened to perform the drain. When the fishing operation for removing the small fishes is performed, the second drain valve 21 is firstly opened to drain the water in the breeding pond to half the height, most of the fishes and shrimps at the moment are gathered above the drain inner cone 3 under the effect of half of pond water before being drained, then the lifting separation net device 6 (the mesh size of the separation net 61 is adjustable) is lifted, the small fishes and shrimps are attracted to the outer side of the lifting separation net device 6 by feeding around the breeding pond, the large fishes and shrimps are isolated by the lifting separation net device 6, finally the lifting separation plate device 5 is lifted and the second drain valve 21 is opened again to drain water, and quick fishing is realized.

While the invention has been described with respect to the preferred embodiments, it should be noted that modifications and improvements to the dirt collection and drainage assembly will be apparent to those skilled in the art without departing from the scope of the invention, and do not affect the practice of the invention or the utility of the patent.

Claims

1. The use method of the sewage collection and drainage assembly is characterized by comprising a first drainage pipe (1) capable of discharging large particles, a second drainage pipe (2) capable of discharging small particles, a drainage inner cone (3) and a drainage outer cone (4) which are arranged at the bottom of a culture pond and are in reverse taper shape and are connected with the two cone bottom edges, wherein the cone top of the drainage outer cone (4) is positioned below the cone top of the drainage inner cone (3), a plurality of through holes (31) which are used for communicating the culture pond with the drainage outer cone (4) and can pass through the small particles are arranged on the side wall of the drainage inner cone (3), and the cone top of the drainage outer cone (4) is respectively provided with a drainage outlet which is communicated with the first drainage pipe (1) and the second drainage pipe (2); the device comprises a lifting partition board device (5) and a lifting partition net device (6), wherein the lifting partition board device and the lifting partition net device are used for isolating the space in a culture pond and can work independently, and a pollution discharge inner vertebra (3) and a pollution discharge outer vertebra (4) are positioned at the inner sides of the lifting partition board device (5) and the lifting partition net device (6); the lifting baffle device (5) is of a closed water structure and comprises an annular baffle (51) and a plurality of baffle hydraulic pumps (52) which are connected with the bottom of the baffle (51) and can drive the baffle hydraulic pumps to lift; the lifting screen device (6) is of a water-permeable screen structure and comprises an annular screen (61) and a plurality of screen hydraulic pumps (62) which are connected with the bottom of the screen (61) and can drive the screen hydraulic pumps to lift; the device is characterized in that a plurality of through pipes (32) which are higher than the conical surface of the sewage disposal inner cone (3) are arranged on the sewage disposal inner cone (3), the through pipes (32) are uniformly distributed around the sewage disposal outlet of the sewage disposal inner cone (3), each through hole (31) is arranged on one through pipe (32), the through holes (31) are of structures which are obliquely arranged clockwise or anticlockwise around the sewage disposal outlet of the sewage disposal inner cone (3), when the sewage disposal operation is carried out in a cultivation pond with fishes and shrimps, the second sewage disposal valve (21) is firstly opened to discharge the water in the cultivation pond to half height, at the moment, the pollutants are gathered on the sewage disposal inner cone (3) under the action of half pond water in front of the discharge, then the live fishes and shrimps are sucked to the outer side of the lifting baffle device (5) around the cultivation pond, meanwhile, the lifting baffle device (5) is lifted to separate the pollutants from the fishes and shrimps, and finally the first sewage disposal valve (11) is opened to carry out the sewage disposal; when the fishing operation of discharging the small fish, firstly, the second blow-off valve (21) is opened to discharge the water in the breeding pond to half height, at this time, most of the fish and the shrimp gather above the inner cone (3) of the blow-off under the effect of half pond water before the discharge, then the lifting separation net device (6) is lifted, the small fish and the shrimp are attracted to the outer side of the lifting separation net device (6) by feeding the bait around the breeding pond, the large fish and the shrimp are isolated by the lifting separation net device (6), finally, the lifting separation plate device (5) is lifted and the second blow-off valve (21) is opened again to drain water, and the quick fishing is realized.

2. The use method of the sewage collection and drainage assembly according to claim 1, wherein the drainage outlets of the drainage inner cone (3) and the drainage outer cone (4) are respectively provided with a first drainage valve (11) and a second drainage valve (21) for controlling the opening or closing of the drainage inner cone and the drainage outer cone.

3. The method of using a sewage collection and drainage assembly according to claim 2, wherein the first drainage valve (11) and the second drainage valve (21) each comprise one of an electrically controlled one-way valve or a stone ball connected with a pull rope.

4. The method for using the dirt collecting and discharging assembly according to claim 1, wherein the inner cone (3) of the dirt collecting and discharging assembly is of a structure that the included angle between the conical surface and the horizontal plane is gradually increased from top to bottom.