KR20210074810A - Belt type sludge removal device for fish farms - Google Patents

Abstract

The present invention relates to a belt-type sludge removal device for fish farms, comprising: a treatment tank provided with a space in which a predetermined amount of discharged water can be introduced and stored; a separation belt configured to be rotatable with rotation shafts installed at both ends in an endless track structure in the inner space of the treatment tank and installed horizontally at a certain distance from the bottom of the treatment tank to divide the inner space of the treatment tank into upper and lower sections; a discharge water supply pipe which the discharged water drained from the fish farms can flow into the treatment tank on the side of the treatment tank of the caterpillar movement direction and the direction of the separation belt; at least one blocking wall of a certain height is perpendicular to the movement direction of the separation belt on the upper part of the separation belt and installed to be spaced apart from the upper part of the separation belt; and a drain pipe for having one end connected to the bottom of the treatment tank and the other end connected to the re-supply pipe. Accordingly, the belt-type sludge removal device for fish farms has the effect of easily removing the sludge in the breeding water only by moving the separation belt and the endless track movement as the size of the sludge is uniform compared to other types of wastewater or sewage, the breeding water falls through the separation hole without interfering with the movement of the separation belt, and only the sludge is compressed on the side of the separation belt.

Description

Belt type sludge removal device for fish farms

The present invention relates to a device capable of removing the sludge of breeding water discharged from a farm, and by introducing the discharged water drained from the farm into a separation belt, compressing the sludge on the belt surface, and dropping the breeding water of the discharged water to be included in the discharge It relates to a belt-type sludge removal device for aquaculture that can remove sludge.

Recently, while the demand for aquatic products has been rapidly increasing, the catch has reached a point in which the catch is gradually decreasing as the fishing resources are greatly reduced. Accordingly, as the aquaculture system is widely distributed, the problem of treating sludge discharged from the aquaculture is intensified, and the development of aquaculture purification technology is required.

The size and type of sludge discharged from aquaculture farms is limited, and the types include chemical treatment agents, feed waste, excrement, etc., which are limited sources of pollution compared to sewage in the general field.

A typical farm sludge treatment system goes through a physical method to remove solids in breeding water, such as sand filtration or filter media, and then selects one of various methods such as a biological treatment method, ozone oxidation and electrolysis, and Removes organic matter and pathogens.

At this time, if the solids in the breeding water above an appropriate level are not removed by the physical method, the sludge treatment method performed later cannot proceed smoothly, so a method capable of more efficiently removing organic matter and solids in the breeding water is needed.

A typical example for physically removing sludge is a drum-type sludge removal device, which uses a drum filter driven by a power motor to spray water on the outer surface of the rotating drum filter while allowing the sludge to adhere to the inner surface. Some are designed to remove sludge attached to the inner surface of the drum filter.

In addition, domestic application No. 10-2005-0030644 has a first biofilm filtration tank, an ozone reaction tank, a second water film filtration tank, and an ozone degassing tank in one piece, so that the flow of the discharged water is adjusted to the downstream by indirect aeration, Disclosed is a wastewater treatment system for aquaculture that can remove residual suspended matter and dissolved organic matter through the first biofilm filtration tank and the second biofilm filtration tank containing a porous filter medium.

However, the prior literature discloses that when cleaning is performed for reuse of porous media or replacing the porous media with a new one, separation and treatment of the porous media is cumbersome, making it very difficult as well as physical and chemical Since only filtration is performed, there is a problem that the components in the form of sludge collected through filtration cannot be recycled for other purposes.

Domestic Registration Patent No. 10-1594822 discloses that sludge generated from cage farms is supplied by a salvage boat and stored while separating contaminants, and while supplying water and sludge, sludge that enables the efficient treatment of dissolved organic matter using bioactive carbon. Disclosed is a processing line and a method therefor. In the domestic registration patent No. 10-1795171, the floating sludge accumulated thickly while floating on the surface of the breeding water during the biofloc culture process is collected, and the breeding water that has moved along with the floating sludge during the collection process is air-lifted and reintroduced into the aquaculture tank Disclosed is a floating sludge removal device for a biofloc aquaculture tank capable of reprocessing only the floating sludge by doing so. Domestic Registration Patent No. 10-0610589 discloses that in order to ensure the removal of residual suspended solids and dissolved organic substances and the removal of ammonia nitrogen in water, the effluent discharged from the aquaculture farm flows into the lower part, moves upward, and is porous inside. The first biofilm filtration tank in which the filter media is installed, the ozone reaction tank in which the water that has passed through the first biofilm filtration tank flows into the upper part and moves downward and oxygen and ozone are injected, and the water that has passed through the ozone reactor flows in the upper part to indirectly A second biofilm filtration tank that moves downward by aeration and a porous filter is installed therein, and an ozone degassing tank in which water that has passed through the second biofilm filtration tank flows into the bottom and moves upstream and aeration of air is made Disclosed is a wastewater treatment system for aquaculture farms. In Korea Patent Publication No. 10-2019-0095152, in discharging fish discharge water generated from aquaculture, water quality purification that can minimize the impact on the ecosystem near the discharge water area and filtration treatment of a part of the discharge water using a separation membrane are used as part of aquaculture water. Disclosed is a effluent treatment and circulation filtration system for aquaculture farms for recycling and reusable aquaculture effluent treatment and reuse systems.

The present invention is to solve the problem that the filter medium cannot be replaced and the filtered sludge cannot be recycled for other purposes in the case of a conventional farm sludge treatment system, and the sludge is compressed on the belt surface by introducing it into a separation belt, and the breeding water of the discharged water is An object of the present invention is to provide a belt-type sludge removal device for aquaculture that can remove sludge contained in discharged water by dropping it.

A belt-type sludge removal device for aquaculture according to an embodiment of the present invention includes: a treatment tank having a space in which a predetermined amount of discharged water can be introduced and stored; Separation belts rotatably configured with rotation shafts installed at both ends of the treatment tank inner space in an endless track structure are installed to be horizontally spaced apart from the treatment tank bottom by a predetermined distance to partition the treatment tank inner space into upper and lower portions; A discharge water supply pipe through which the discharge water drained from the farm can be introduced into the treatment tank is installed on the side of the treatment tank in the direction of the caterpillar movement and the east of the separation belt; At least one barrier wall of a predetermined height perpendicular to the movement direction of the separation belt is installed at the upper portion of the separation belt and spaced apart from the upper portion of the separation belt; One end may be connected to the bottom of the treatment tank and the other end may be formed of a drain pipe connected to the re-supply pipe.

A plurality of separation holes having a diameter through which only the breeding water particles of the discharged water can pass are formed on the side of the separation belt, and the blocking wall is installed at least one spaced apart along the moving direction of the separation belt. One or more discharge water storage space parts to be stored may be formed.

A sludge storage tank is installed on the side of the treatment tank facing the side where the discharge water supply pipe is installed, and a scraper capable of scraping off the sludge attached to one side of the separation belt is installed in the sludge storage tank to separate the sludge at the same time as the separation belt moves. It may be possible to collect sludge into the sludge storage tank.

The present invention is a wastewater treatment device installed in a farm, and the types of sludge contained in the farm wastewater are limited to breeding water, fish feed residue, fish excreta, etc., and the size of the sludge is uniform compared to other types of wastewater or sewage. Therefore, the breeding water falls into the separation hole without interfering with the movement of the separation belt, and only the sludge is compressed on the side of the separation belt, so that the sludge in the breeding water can be easily removed only by the operation of the separation belt and the endless orbit movement.

1 shows a side view of a belt-type sludge removal device for aquaculture of the present invention.
Figure 2 shows a partially cut-away perspective view of a belt-type sludge removal device separation belt for aquaculture farms of the present invention.

Hereinafter, it will be described in detail with reference to the drawings related to the belt-type sludge removal device for aquaculture farms of the present invention. The aquaculture belt-type sludge removal apparatus of the present invention includes: a treatment tank 100 having a space in which a predetermined amount of discharged water can be introduced and stored; In the inner space of the treatment tank, a rotating shaft 10 is installed at both ends of the treatment tank, and a separation belt 30 rotatably configured to be horizontally spaced apart from the treatment tank bottom by a certain distance is installed to raise the inner space of the treatment tank. , partitioned down; On the side of the treatment tank facing the separation belt moving direction, a discharge water supply pipe 200 into which the discharged water drained from the farm can be introduced is installed; One or more barrier walls 50 of a predetermined height are installed at an upper portion of the separation belt and perpendicular to the movement direction of the separation belt; One end is connected to the bottom of the treatment tank and the other end is connected to the resupply pipe 400 or may be formed of a drain pipe 300 formed to be discharged to the outside.

The discharge water supply pipe 200 of the present invention is connected to a conventional fish farm, used after aquaculture, and is introduced into the treatment tank as discharged water. The effluent referred to in the present invention may include breeding water, fish feed residues, fish excrement, etc., and the breeding water includes freshwater and seawater used for conventional fish farming as well as biofloc (BFT; Biofloc technology) breeding water. can do.

The biofloc (BFT) breeding water referred to above is cultured together with heterotrophic bacteria and cultured fish species, and the heterotrophic bacteria decompose organic by-products in the tank water 10 to 100 times faster than algae, thereby purifying the water. The organic by-products decomposed by heterotrophs refer to breeding water that again becomes protein food for aquaculture and does not require filtration processes such as water exchange and water treatment.

Figure 2 shows a cutaway view of the separating belt component of the present invention. Separation belt 30 of the present invention is formed of a conventional moving plate shape and material, and a rotating shaft 10 is installed at both ends of the separation belt so that the separation belt supplies driving energy to enable endless orbital motion in one direction, and the lower part of the belt One or more rollers 20 may be installed to help the belt to be installed and maintained in a horizontal direction and to be movable in one direction.

The movement direction of the separation belt of the present invention is the same as the direction in which the discharge water supply pipe is formed. In order to make the description of the present invention easier, the separation belt part at the outermost end where the discharge water supply pipe is installed is referred to as the front end of the separation belt, and the separation belt at the last end is referred to as the rear end of the separation belt.

The rotating shaft according to an embodiment of the present invention may be configured such that the speed reducing means is adjustable by the user, so that the speed of the endless orbital motion of the belt can be adjusted. In addition, a plurality of separation holes 31 having a size of a predetermined diameter may be formed on the side of the belt.

The separation belt is installed horizontally at the middle height of the inner space of the treatment tank so that the inner space forms the upper and lower spaces. In addition, one or more blocking walls are installed to be spaced apart from each other perpendicular to the moving direction of the separation belt.

The blocking wall 50 may be formed with one or more discharge water storage space portions above the separation belt so that the discharge water introduced into the discharge water supply pipe can be stored. Since the blocking wall is installed to be spaced apart from the separation belt by a certain distance, the discharged water stored in the discharge water storage space formed by the blocking wall moves to the adjacent discharge water storage space along with the movement of the separation belt.

The separation hole is formed with a diameter through which only the breeding water that does not contain the sludge can pass through the sludge contained in the discharge water, so that only the breeding water can pass through the separation hole and fall to the lower part of the treatment tank.

Accordingly, the sludge may be continuously separated from the breeding water in the discharge water. In addition, since the amount of discharged water falling into the separation hole is relatively small compared to the amount of discharged water flowing into the discharge water storage space formed by the blocking wall, the discharge water at a certain level can be maintained in the discharge water storage space.

The separation distance between the barrier wall and the separation belt controls the movement speed of the amount of discharged water moving to the discharge water storage space so that the sludge of the discharge water storage space is continuously accumulated on the upper side of the separation belt.

The wider the distance, the faster the movement speed, and the narrower the distance, the slower the movement speed. In an embodiment according to the present invention, the blocking wall formed in the discharge water storage space close to the discharge water supply pipe narrows the separation distance between the blocking wall and the separation belt as the distance from the discharge water supply pipe increases, so that the sludge moves together with the separation belt. As a result, the breeding water escapes and only the sludge remains, making it easier for the sludge to be compressed on the separation belt.

The present invention is a wastewater treatment device installed in a farm, and the types of sludge contained in the farm wastewater are limited to breeding water, fish feed residue, fish excreta, etc., and the size of the sludge is uniform compared to other types of wastewater or sewage. Thus, without interfering with the movement of the separation belt, the breeding water falls into the separation hole and only the sludge can be compressed on the side of the separation belt.

A sludge storage tank 40 is installed on the side of the treatment tank at the end of the separation belt. A scraper 41 may be installed at the upper portion of the sludge storage tank to scrape the sludge compressed on the side of the separation belt passing through the rear end of the separation belt and collect it into the sludge storage tank.

A water spray device is formed on the lower part of the rotating shaft, and the sludge on the surface of the separation belt remaining after being separated by a scraper can be washed.

As an embodiment of the present invention, biofloc breeding water is regarded as the discharge water in the form of cakes or floc masses being agglomerated as biofloc organic by-products are adsorbed by bubbles generated in the oxygen supply device installed in the farm. In the case of passing through the device of the present invention, it is possible to separate breeding water and sludge and independently store only the sludge, so that biofloc sludge with added value can be reused.

In the lower part of the treatment tank of the present invention, the sludge is separated and the breeding water falling from the separation belt is collected. At the bottom of the treatment tank, one end of the drain pipe 300 is installed and the collected breeding water may be discharged to the outside of the treatment tank. When a resupply pipe is installed at the other end of the drainage pipe to remove the sludge contained in the breeding water, it is resupplied to the treatment tank through the resupply pipe 400 so that a plurality of sludge removal operations can be repeated.

Industrial Applicability The present invention can more easily and conveniently remove contaminated water generated in aquaculture, thereby preventing aggravation of environmental pollution, and contributing to the development of the fishery industry by helping workers related to aquaculture to easily recycle breeding water. There is this.

100: treatment tank 200: discharge water
300: drain pipe 400: resupply pipe
10: axis of rotation 20: roller
30: separation belt 40: sludge storage tank
41: scraper 31: separator hole
50: barrier

Claims (4)

a treatment tank provided with a space in which a predetermined amount of discharged water can be introduced and stored; Separation belts rotatably configured with rotation shafts installed at both ends in an endless track structure in the inner space of the treatment tank are installed to be horizontally spaced apart from the bottom of the treatment tank by a predetermined distance to partition the inner space of the treatment tank into upper and lower portions;
A discharge water supply pipe through which the discharge water drained from the farm can be introduced into the treatment tank is installed on the side of the treatment tank in the direction of the caterpillar movement and the east of the separation belt; At least one barrier wall of a predetermined height perpendicular to the movement direction of the separation belt is installed at the upper portion of the separation belt and spaced apart from the upper portion of the separation belt; Belt-type sludge removal device for aquaculture, characterized in that one end is connected to the bottom of the treatment tank and the other end is made of a drain pipe connected to the re-supply pipe The belt-type sludge removal device for aquaculture according to claim 1, wherein a plurality of separation holes having a diameter through which only the breeding water particles of the discharged water can pass are formed on the side of the separation belt. [Claim 3] The belt for aquaculture farm according to claim 2, wherein the blocking wall is installed at least one spaced apart along the moving direction of the separation belt, and at least one discharge water storage space in which the introduced discharged water is stored is formed in the inner space of the upper inner space of the treatment tank. type sludge removal device The separation belt according to claim 1, wherein a sludge storage tank is installed on a side of the treatment tank facing the side where the discharge water supply pipe is installed, and a scraper capable of scraping off sludge attached to one side of the separation belt is installed in the sludge storage tank. Belt-type sludge removal device capable of separating sludge while moving and collecting sludge into the sludge storage tank

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