KR100922918B1 - A glass fish-bowl cleaning system - Google Patents

Abstract

PURPOSE: A seawater purifier is provided, which sterilizes various kinds of the bacteria in the water and increases amount of dissolved oxygen in the water. CONSTITUTION: A seawater purifier has a cyclic motor(110) and a main body(10). The main body includes a seawater circulation part, a seawater separation unit, and a purifying water sterilization unit. The seawater circulation part is segmented by a first wall(150). The seawater separation unit includes an exhaust line(210), a seawater inlet pipe(220), an inlet(230), and a filter body(240). The seawater separation unit is segmented by a secondary wall(250). The filter includes a lot of through-holes to filter out suspended material of the seawater. The purifying water sterilization unit supplies purifying water after sterilizing the water.

Description

Seawater Purifier {A GLASS FISH-BOWL CLEANING SYSTEM}

The present invention relates to a seawater purifier, which is used for transporting and supplying live fish to a large restaurant on land, or to maintain the freshness of the live fish until catching the live fish in a large restaurant. It relates to a seawater purifier for purification.

Fish and aerobic microbes living in water breathe dissolved oxygen, and organic matter in the water is oxidized and decomposed by them, so the lack of dissolved oxygen not only causes the killing of fish and shellfish, but also the organic matter. Etc. remain and lead to contamination of the water. The dissolved oxygen is measured by a titration method such as the Winkler method and the mirror method, and an electrical measurement method using a special electrode.

Dissolved oxygen (DO) is the amount of oxygen in the molecular state dissolved in water or solution.

This dissolved oxygen amount is saturated at 9ppm in the DO of pure water in the atmosphere of 20 ℃, 1 atm, this value decreases with increasing temperature, increases with increasing atmospheric pressure. Another dissolution component is also affected.

In the fish tank, dissolved oxygen in the water is reduced by the live fish, and the water is quickly polluted by the excreta of the live fish. Accordingly, the freshness of the live fish is reduced, the meat taste is reduced, and the live fish is killed.

In order to prevent such problems, the water must be changed frequently and frequently cleaned. To transport and supply the seawater offshore, it takes a lot of transportation cost and time, and therefore it was difficult to supply the seawater in a timely manner. Due to the large losses due to our death, the operation was difficult due to the cost increase.

In order to solve such a conventional problem, a filtration device is installed inside a fishbowl and used, which has an effect of slightly increasing the amount of dissolved oxygen in water, but has not removed foreign substances such as live fish droppings contained in the water. Did not fundamentally prevent.

The present invention has been made to solve the above problems,

The purpose is to provide a clean seawater device that discharges and removes various pollutants including live fish droppings, increases the amount of dissolved oxygen in the water, and sterilizes and cleans various bacteria in the water.

Another purpose is to continuously supply clean seawater to the tank where the fish is stored while moving the fish while storing the fish in the tank, to maintain the freshness of the fish, and to reduce the costs incurred during the fish transfer. The purpose is to provide a clean seawater device that can be saved.

Seawater purifier according to the present invention,

In the conventional seawater cleaning device having a main body provided with a circulation motor and sterilization for purifying the seawater in order to supply the purified water purified by the seawater to the tank containing the live fish,

The main body is provided with the circulation motor to receive electric power from the outside, the seawater circulation portion partitioned by the first partition wall, and the discharge pipe for discharging the suspended matter in the seawater floated upward by the seawater circulation portion to the outside A seawater inflow pipe is formed in the upper portion and introduces seawater from the outside, and a seawater separation unit partitioned by a second partition wall separating seawater and purified water, and purified water filtered out of seawater from the seawater separation unit, A sterilization lamp is provided therein, and includes a purified water sterilization unit for supplying the purified water after sterilizing the purified water.

In addition, the seawater circulation unit, the seawater suction pipe is connected to the circulation motor for introducing the seawater of the seawater separation unit, and the bubble discharge pipe for providing the seawater introduced through the seawater suction pipe with the air back to the seawater separator. It is configured by.

In addition, the end of the bubble ejection pipe is formed in a U shape so that air and water are ejected upwards from the bottom of the seawater separator and floats mixed with the seawater to the top of the seawater separator.

In addition, the seawater separator is formed in the lower portion of the second partition wall, the seawater excluding the floats of the seawater separator portion enters the purified water sterilization portion, and formed at the inlet of the inlet, to filter the floating of seawater entering the entry port It is configured to further include a filter body having a plurality of through holes for the bet.

The process of circulating seawater in a tank containing live fish, discharging and removing various contaminants including live manure, increasing dissolved oxygen in the water, sterilizing various bacteria in the water, and then resupplying the tank containing live fish As a result, there is an effect on use of easily supplying clean seawater to a tank containing live fish.

Another effect is the economic effect of minimizing the cost of clean-up management and the loss of live fish by improving the freshness of the live fish, improving the meat quality, and extending the life of the live fish contained in the tank where the clean sea water is supplied. .

Specific features and other advantages of the present invention will become more apparent from the following drawings and description of the preferred embodiments.

Prior to explaining the present invention, the inventors of the present invention frequently occurs in the process of supplying live fish, which are frequently consumed in daily life such as restaurants, from coast to inland, and inland to each restaurant, and death of live fish due to long-term migration. In order to solve the problem, it is possible to keep fresh fish in a narrow space while maintaining the environment of fresh fish stored in the tank, and to provide fresh fish to in-store restaurants so that consumers can consume it. It is to propose a seawater cleaning device to use.

1 is a perspective view showing the interior of the seawater purifier according to the present invention, Figure 2 is an embodiment showing the implementation of the seawater purifier according to the present invention, Figure 3 is an enlarged main portion of the seawater purifier according to the present invention 4 is an enlarged perspective view, and FIG. 4 is a use state diagram illustrating a use state of the seawater cleaning device according to the present invention.

1 to 4, when looking at the seawater purifying apparatus according to the present invention, the live fish caught in the sea, is stored in the tank 50 from the boat catching the live fish is raised to land.

Live fish transported to land is also transferred to another tank 50 and stored, and then transported and stored in another tank 50 mounted on each truck to be transported and supplied to a large restaurant or the like of each city.

At this time, the sea water (70) of the water tank 50 is to be purified, looking at the main body 10 is provided with a circulation motor 110 and the sterilization lamp 310 for purifying the introduced sea water (70),

It has a sea water circulation unit 100 is provided with a circulation motor 110 for circulating the sea water (70).

Subsequently, the circulation motor 110 is provided with a discharge pipe 210 for discharging the suspended matter in the seawater 70 to the outside, and the seawater for initially introducing the seawater 70 from the water tank 50. Inlet pipe 220 has a seawater separation unit 200 is formed.

In addition, a first partition 150 is formed between the seawater circulation unit 100 and the seawater separation unit 200 to divide the seawater circulation unit 100 and the seawater separation unit 200.

Accordingly, the sea water circulator 100 having the circulation motor 110 is directly cut off from the sea water 70, but it is preferable to circulate the sea water 70 through the circulation motor 110.

First, the seawater 70 of the tank 50 in which the live fish is accommodated is introduced into the seawater separator 200 through the seawater inlet pipe 220 of the seawater separator 200.

Subsequently, when the seawater 70 is introduced into the seawater separator 200 from the water tank 50, the seawater 70 is a water pressure according to a high and low difference between the water tank 50 and the seawater separator 200. As such, the seawater inlet pipe 220 can be easily flowed from the water tank 50 to the seawater separation unit 200, using a separate motor (not shown), the seawater in the water tank 50 The seawater 70 may be introduced into the separation unit 200.

And, one end of the seawater inlet pipe 220 is preferably provided with a control valve 225 for controlling the flow amount of the seawater 70 from the outside.

As such, when a predetermined amount of sea water 70 is introduced into the seawater separator 200 from the water tank 50, the seawater separator is further blocked by blocking the control valve 225 provided in the seawater inlet pipe 220. Block 200 inflow of sea water.

Subsequently, when the seawater 70 is filled in the seawater inlet pipe 220, the seawater of the seawater separator 200 is circulated through the circulation motor 110 of the seawater circulation unit 100.

Here, the seawater circulation of the seawater separation unit 200, the particles of the seawater of the seawater separation unit 200 through the seawater suction pipe 120 connected to one end of the circulation motor 110, the circulation motor 110 Sucking out except for the large float, it is ejected to the seawater separation unit 200 together with the bubbles through the bubble ejection pipe 130 connected to the other end of the circulation motor 110, as described below,

The seawater suction pipe 120 connected to one end of the circulation motor 110 is connected to the seawater separator 200 while penetrating the lower portion of the first partition wall 150, and the seawater introduced into the seawater separator 200. Will suck (70).

At this time, since the seawater suction pipe 120 sucks the seawater 70 so that only water penetrates, impurities having large particles do not flow into the seawater suction pipe 120.

Subsequently, the seawater 70 flowing into the seawater suction pipe 120 flows to the bubble ejection pipe 130 connected to the other end of the circulation motor 110.

In addition, the bubble ejection pipe 130 connected to the other end of the circulation motor 110 is connected to the seawater separator 200 while penetrating the upper portion of the first partition wall 150, and the seawater separator 200. ) Standing from the top to the bottom in the vertical direction, both ends of the bubble ejection tube 130 is formed in an upward direction in the form of a 'U'.

In addition, the bubble ejection pipe 130 generates bubbles and ejects the seawater separation unit 200 together with the seawater 70, as mentioned above, both sides of the bubble ejection unit 130. Since the seawater 70 is discharged together with the bubbles while the end is formed in a 'U' shape in the upward direction, floating matters contained in the seawater 70 of the seawater separation unit 200 are separated from the seawater separation unit 200. Allow it to be guided upwards.

The circulation of sea water of the seawater separator 200 is made, and as mentioned above, when floating matters float upward by bubbles of air of the seawater separator 200, the seawater separator 200 Floating matter is discharged to the outside of the main body 10 by the discharge pipe 210 formed on the top of the).

In addition, the seawater separator 200, the discharge pipe 210, the seawater inlet pipe 220 for introducing the seawater 70 from the water tank 50 outside the main body 10, and the seawater 70 And a second partition 250 for partitioning the purified water 90.

In addition, the seawater separation unit 200 is formed in the lower portion of the second partition 250, the entrance port through which the seawater 70, except for the floating water of the seawater separation unit 200 enters into the purified water sterilization unit 300. 230 and a filter body 240 formed at the inlet of the entrance port 230 and having a plurality of through holes for filtering the floating water of the seawater 70 entering the entrance port 230. .

In addition, the purified water 90 filtered from the seawater 70 of the seawater separator 200 is introduced into the purified water sterilization unit 300 provided with a sterilization lamp 310 capable of sterilization.

In this way, the sea water 70 of the seawater separator 200 is introduced into the purified water sterilization unit 300, due to the hydraulic pressure formed by the predetermined amount of seawater 70 is introduced into the seawater separator 200 The seawater 70 of the seawater separator 200 flows to the purified water sterilization unit 300 through the entry port 230 formed under the second partition wall 250.

The purified water sterilization unit 300, the purified water 90 is suspended from the seawater separator 200, the purified water 90 is sterilized by the sterilization lamp (310) and the water tank (50) To be supplied.

As a result, the seawater separation unit 200 is formed between the seawater circulation unit 100 and the purified water sterilization unit 300, and is formed between the seawater circulation unit 100 and the seawater separation unit 200. The first partition 150 is provided to partition each other, and a second partition 250 is provided between the seawater separator 200 and the purified water sterilization unit 300 to partition each other.

In addition, the seawater separator 200 is formed under the second partition wall 250, and the seawater 70, except for the floating matters of the seawater separator 200, enters the purified water sterilization unit 300. 230 and a filter body 240 formed at the inlet of the entrance port 230 and having a plurality of through holes for filtering the floating water of the seawater 70 entering the entrance port 230. .

Subsequently, the purified water sterilization unit 300 is sterilized with ultraviolet rays irradiated from the sterilization lamp 310 to supply the sterilized purified water 90 to the tank 50 in which live fish are accommodated. The upper portion of the upper portion 300 controls the water flow in the air pressure in preparation for the case where the purified water supply pipe 390 for supplying the purified water 90 to the tank and the purified water 90 to be supplied to the purified water supply pipe 390 is excessive. It is preferable that the prevention pipe 380 is provided.

Thus, in the tank 50 in which live fish are accommodated, suspended matter is removed and sterilized purified water 90 is introduced. The purified water 90 is a biochemical oxygen suitable for living organisms with dissolved oxygen (DO). Live fish can effectively live in the tank 50 because it meets the BOD and the chemical oxygen demand (COD).

Here, the physical conditions that live fish don't die in the water tank, and can prolong life should be a change in water temperature similar to the ambient temperature, with little suspended matter in the water, no debris, bubbles, odors and colors floating on the surface of the water. The chemical conditions are that the appropriate amount of oxygen dissolved in water must be dissolved in the water, inorganic nutrients must be normally dissolved in a balanced and organic or toxic substances, according to the present invention, seawater cleaning device, With the configuration mentioned in, we will meet all of these factors.

 Looking at an embodiment of the seawater cleaner according to the present invention,

(Example)

As shown in Figures 3 to 4, the live fish tank 50 is mounted on a vehicle to transport the long distance, or the live fish tank 50 is accommodated in such a large restaurant such that the live fish is not killed for a certain time In order to maintain life without being able to supply fresh live fish to consumers, the water tank 50 and the seawater cleaning device are used in connection.

The tank 50 in which the live fish is accommodated, as time goes by due to the excreta of the live fish, the amount of dissolved oxygen in the tank 50 is reduced due to the ammonia of the excrement, so when the amount of dissolved oxygen in the tank 50 is reduced The live fish eventually die.

In order to prevent the above-mentioned situation, the seawater cleaning device according to the present invention, the seawater circulation unit 100 is provided with a circulation motor 110, and seawater separation unit for separating the seawater 70 and the purified water 90 200 and a main body 10 in which the purified water sterilization unit 300 for sterilizing the purified water 90 is partitioned.

And, one side of the tank 50, the live fish is accommodated, the sea water inlet pipe 220 to allow the sea water 70 of the tank 50 to flow.

Subsequently, the seawater 70 flowing from the water tank 50 through the seawater inflow pipe 220 is introduced into the seawater separator 200.

In addition, the sea water inlet pipe 220 is provided with a control valve 225 for adjusting the inflow amount of the sea water 70, when a predetermined amount of sea water 70 is introduced into the sea water separator 200, the open control It is preferable to close the valve 225 to block the inflow of seawater 70 from the water tank 50.

In addition, when a predetermined amount of seawater 70 is introduced into the seawater separator 200, the seawater is connected to a circulation motor 110 provided in the seawater circulation unit 100 partitioned by the first partition wall 150. The seawater 70 is introduced into the circulation motor 110 through the seawater suction pipe 120 that introduces the seawater 70 of the separation unit 200.

In this case, the seawater suction pipe 120 is preferably positioned to interconnect the seawater circulation unit 100 and the seawater separation unit 200 while passing through the first partition wall 150.

Subsequently, the seawater 70 flowing into the circulation motor 110 through the sea water suction pipe 120 does not naturally have a large particle floating therein.

In this way, the sea water 70 introduced into the circulation motor 110, the seawater separation unit 200 together with the bubbles of air generated in the bubble ejection pipe 130 connected to the upper portion of the circulation motor 110. Is entered.

In this case, the bubble ejection pipe 130 may be positioned to interconnect the seawater circulation unit 100 and the seawater separation unit 200 while passing through the first partition wall 150.

However, the seawater suction pipe 120 penetrates the lower portion of the first partition wall 150, and the bubble ejection pipe 130 penetrates the upper portion of the first partition wall 150, respectively, and the seawater circulation part 100. ) And the seawater separation unit 200 are interconnected.

In particular, the bubble ejection pipe 130, while the front end is connected to the upper end of the circulation motor 110, and penetrates through the upper portion of the first partition 150, the end of the bubble ejection pipe 130 in the lower portion of the seawater separator 200 Since it is formed in the direction, the bubble is ejected together with the seawater 70 in the bubble ejection pipe 130 is ejected in the upper direction of the seawater separator 200, the floating material in the upper direction of the seawater separator 200 Will be displayed.

Thus, when the float floats to the upper portion of the seawater separator 200, the float is discharged to the outside of the main body 10 by the discharge pipe 210 formed on the seawater separator 200.

In addition, when the float floats upward in the seawater separator 200, a portion of the seawater separator 200 that is partially purified is located in the seawater 70, and the seawater 70 is the purified water sterilization unit ( 300).

Subsequently, the partially purified seawater 70 positioned below the seawater separator 200 enters the purified water sterilization unit 300 because the entry port 230 is formed under the second partition wall 250. to be.

This is because the seawater 70 of the seawater separator 200 is formed in the lower portion of the second partition 250 due to the hydraulic pressure formed by the introduction of a predetermined amount of seawater 70 into the seawater separator 200. It will flow to the purified water sterilization unit 300 through the).

In addition, the inlet 230, the inlet is provided with a filter body 240 having a plurality of through-holes for filtering the remaining floating residue of the sea water 70, the sea water 70 is the filter body 240 Passing through the purified water 90 is not mixed.

Subsequently, the purified water 90 introduced into the purified water sterilization unit 300 from the seawater separator 200 is sterilized by the sterilization lamp 310.

Thus, the sterilized purified water 90 is supplied back to the water tank 50 in which live fish are accommodated through the purified water supply pipe 390.

At this time, when the purified water 90 is excessively supplied from the seawater separator 200 to the purified water sterilizer 300, due to the air pressure of the backflow prevention pipe 380, the purified water 90 from the seawater separator 200. ) Is no longer entered into the purified water sterilization unit 300, the sea water is introduced into the purified water sterilization view 300 from the seawater separator 200 by the amount of the purified water 90 is supplied to the water tank (50) It is preferable.

As a result, when the seawater separator 200 ejects the bubbles mixed with the seawater 70 through the bubble ejection pipe 130, the float floats to the upper portion of the seawater separator 200 and the discharge pipe 210. Is discharged to the outside through the main body 10, and partially purified sea water 70 is left below the seawater separation unit 200, the partially purified sea water 70, through the filter body 240 Purified water 90 is removed from the floating residue is entered into the purified water sterilization unit 300, the purified water 90 is sterilized by the sterilization lamp 310, the live fish is received through the purified water supply pipe 390 It is supplied to the water tank 50.

While the invention has been shown and described with respect to specific embodiments thereof, it will be appreciated that various changes and modifications can be made in the art without departing from the spirit or scope of the invention as provided by the following claims. It will be obvious to those of ordinary skill.

1 is a perspective view showing the inside of the seawater purifying apparatus according to the present invention,

2 is an embodiment showing the implementation of the seawater purifying apparatus according to the present invention,

3 is an enlarged perspective view illustrating an enlarged main portion of the seawater cleaner according to the present invention;

Figure 4 is a state of use showing a state of use of the seawater purifying apparatus according to the present invention.

<Description of Symbols for Major Parts of Drawings>

50: tank 70: seawater

90: purified water 100: seawater circulation

110: circulation motor 120: seawater suction

130: bubble blowing pipe 150: the first bulkhead

190: power supply unit

200: seawater separator 210: discharge pipe

220: seawater inlet pipe 225: control valve

230: entrance port 240: filter sieve

250: second bulkhead

300: purified water sterilization unit 310: sterilization lamp

380: backflow prevention pipe 390: purified water supply pipe

Claims (4)

The circulation motor 110 and the sterilization lamp 310 for purifying the seawater 70 in order to supply the purified water 90 in which the seawater 70 is purified to the tank 50 containing the live fish to maintain the freshness of the live fish. In the normal seawater purifier having the main body 10 provided, The main body 10, A seawater circulation unit (100) partitioned by the first partition wall (150) with the circulation motor (110) receiving electric power from the outside; A discharge pipe 210 for discharging the suspended matter in the seawater 70 floated upward by the seawater circulation unit 100 to the outside is provided at the top, and the seawater inflow pipe 220 for introducing the seawater 70 from the outside is provided. A seawater separator 200 formed by the second partition 250 while separating the seawater 70 and the purified water 90; Purified water 90, the suspended solids are filtered from the sea water 70 of the seawater separator 200, a sterilization lamp 310 is provided therein to sterilize the purified water 90 to the water tank 50. It is configured to include; purifying water sterilization unit 300 to supply, The sea water separator 200, Is formed in the lower portion of the second partition 250, the seawater 70, except for the floating water of the seawater separation unit 200 enters into the purified water sterilization unit 300 and the entrance port 230, the entrance port 230 It is formed, the seawater cleaning device, characterized in that it further comprises a filter body 240 is provided with a plurality of through-holes for filtering the floating water of the sea water (70) entering the entry port (230). The method of claim 1, The sea water circulation unit 100, The seawater suction pipe 120 connected to the circulation motor 110 to introduce the seawater 70 of the seawater separator 200 and the seawater 70 introduced through the seawater suction pipe 120 together with air again. Seawater cleaning device, characterized in that further comprises a bubble jet pipe 130 provided to the seawater separation unit (200). The method of claim 2, The end of the bubble blowing pipe 130, The air and water is ejected from the lower portion of the seawater separator 200 in an upward direction so that the floating material mixed in the seawater 70 is formed in a U shape so as to float to the top of the seawater separator 200 with bubbles. Seawater purifiers. delete

Images