KR101176408B1 - Compacted culture apparatus - Google Patents

Abstract

PURPOSE: An effective microorganism-compacted culture apparatus is provided to ensure easy and convenient movement and installation and to purify air and water. CONSTITUTION: A compacted culture apparatus of pure sterilization comprises a culture tank, a water supply hole(100), an ingredient injection hole(110), a stirring unit(330), a horizontal heater(290), a control unit(250), a washing head(280), a steam generator(470), and water heater(540). The culture tank comprises an internal tank(220) and an external tank(240) and is filled with a filler. The stirring unit has a heater(410) at the lower end of a stirring cask(350).

Description

Intensive pure sterilization culture apparatus {COMPACTED CULTURE APPARATUS}

Regarding the intensive pure sterilization culture apparatus of the present invention, more specifically, the inside of the culture vessel can be sterilized with steam and washed with hot water at the same time, and without installing a separate steam generator and a warmer outside, Implemented in the device relates to an intensive pure sterilization culture device that is easy to install and easy to replace.

Due to urbanization, urban streams are being damaged due to environmental destruction and concentration of buildings.

In order to improve the quality of life and the quality of the city, the campaign to revive the stream is showing its effectiveness by conducting projects in each region.However, the water quality of the stream and stream that flows only by using the Han River can be circulated without fresh water. There is a problem that the odor is generated by the growth of microorganisms.

In particular, the most important form of nitrogen flowing into the sewage and wastewater treatment plant is ammonia nitrogen, which is a nutrient for algae, and 70% of the total oxygen required in the nitrification process is consumed in this process. Ammonia nitrogen consumes a large amount of chlorine in chlorine disinfection, and when gas is volatilized, it causes odors and causes odor complaints in sewage and wastewater treatment plants. The conventional facility structure causes a number of serious problems, such as occupying a large installation area and increasing the size of the apparatus, as well as increasing the construction cost and the maintenance cost. In addition, it is a factor that greatly reduces the utilization efficiency of the facility, it is installed more compact, high efficiency and low cost, the nitrogen component in the sewage and wastewater is removed, which can reduce the odor while maintaining sound water quality There is an urgent need for a device.

There is a problem that management is difficult because there is no integrated system of the culture tank formed compactly integrated such equipment.

Patent No. 10-0930596 previously filed for the above purpose is not aesthetically good because the equipment is mounted on the outside, there was a problem that must be separated during installation and movement.

In addition, since the mixing of the stock solution and the water is made in the tank, it is difficult to grasp the mixed state and there is a problem that the stock solution is aggregated on the side of the tank to confirm.

In addition, there is a problem that it is difficult to fit the construction by shortening the construction period in the necessary facilities by expanding the water purification and purification business, in particular, the problem of increasing the number of work during installation and movement.

Patent No. 10-0930596 filed and registered by the applicant of the present application

The present invention has built-in equipment on the bottom of the culture tank to facilitate the installation, and useful microorganisms (EM, Effective Microorganism) is a combination of dozens of microorganisms beneficial to humans among many microorganisms in nature, the culture can be easily cultured The purpose of the present invention is to provide an incubator capable of proliferating and supplying useful microorganisms and having excellent washing and sterilizing power.

The present invention provides an intensive pure sterilization culture device that is easy to install and use by forming a device for sterilization necessary for mass growth by integrally forming a steam generator, a high water heater and a water heater on the side of the culture tank.

The problem solving means of the present invention

A culture tank consisting of a heat insulating material configured to increase the thermal insulation force to maintain a proper temperature on the outer surface of the inner culture tank of the cylindrical structure and an outer tank on the outer surface, raw water, EM stock solution and nutrients (such as molasses) supplied in the culture tank Stirring unit for supplying by stirring; A supply unit comprising a raw material inlet and a direct water supply port to supply raw water to supply the culture solution to the culture tank; A culture solution drain tube including a pressure relief valve for discharging the internal gas generated during the cultivation to the outside, a vacuum releasing valve, and a discharge tube for discharging the culture medium to the outside; A heating unit configured of a heater configured to maintain a temperature in the culture tank at 25 to 35 degrees and a temperature sensor detecting a temperature; Control the feed rate of the stock solution and the raw water, control the operating time of the circulation pump to mix the culture solution, control the temperature of the heating unit to maintain the optimum temperature of the culture, and check the culture state in the culture tank in real time To inform the lamp or alarm, and to form a control unit for integrally controlling the discharge, the stirring unit forms a stirring tube on the lower surface of the outside so that the operator can see with the naked eye, stirring on a fixed plate formed on the top of the stirring tube A screw is configured to form a motor, and the fixing plate and the lid are configured to be opened and closed by a hinge. And steam generator, water heater and water purifier for sterilization in the inner tank. It was achieved by gender.

Convenient microorganism group (EM) -intensive culture device of the present invention is convenient to move and easy to install and work at the same time by constructing a steam generator and a water heater and a water purifier that can be sterilized at the same time with internal washing to culture in large quantities It works.

In addition, there is an effect that can be installed efficiently and quickly at low cost in the installation of a culture facility, and the useful microorganisms (EM) cultured as described above are very useful inventions for purification and environmental industry because they have excellent effects of removing odor, purifying air and improving water quality. .

1 is a perspective view showing an intensive pure sterilization culture apparatus of a preferred embodiment of the present invention.
Figure 2 is an open state door showing the intensive pure sterilization culture apparatus of the present invention.
Figure 3 is a cross-sectional view showing an intensive pure sterilization culture apparatus of the present invention.
Figure 4 is a cross-sectional view showing a state in which the washing nozzle of another embodiment of the present invention operates in a variable.
Figure 5 is a state diagram showing the intensive pure sterilization culture apparatus of the present invention.
Figure 6 is an operating state showing the operating state of the cleaning nozzle of the present invention.

Hereinafter, with reference to the accompanying drawings an intensive pure sterilization culture apparatus of a preferred embodiment of the present invention will be described in detail.

80% of the microbes on earth are opportunistic sunflowers. As the number of bad microorganisms increases, they take on the characteristics of bad microorganisms and become involved in decay or pollution, but they play a beneficial role in environments with a high number of beneficial microorganisms. EM is responsible for driving sunflowers in a beneficial direction.

When culturing a large amount of the beneficial microorganisms as described above is to develop a device of the intensive structure for washing and sterilization without a separate external device.

The apparatus for sterilization for the growth and supply of the useful microorganisms of the present invention shown in Figures 1 to 6 and the intensive pure sterilization culture apparatus for supplying purified water and the device for cleaning the apparatus capable of producing a large amount of EM The circulating pump and the pipe were arranged in the lower part of the culture tank in a furnace-intensive manner, and the pipe was installed between the inner tank 240 and the outer tank 220. In addition, the steam generator 470, the water heater 540 and the water purifier 530 is characterized by.

The configuration of the present invention is the culture tank 700, water inlet 100, raw material inlet 110, agitator 330, horizontal heater 290, control unit 250, washing head 280 and steam generator ( 470 and the water heater 540.

The culture tank 700 of the present invention is composed of the inner tank 220 and the outer tank 240, the inside of the insulating material 230 is inserted or filled with a filler. In addition, a pipe was installed between the inner tank and the outer tank so that the supply pipe did not protrude to the outside.

An upper lid-closed lid 120 was formed, and a lower leg 630 was formed to support the lower lid 120.

The culture tank 700 is an outer tank 240 on the outer surface of the thermal insulation material 230 and the outer surface of the thermal insulation material configured to increase the thermal insulation power to maintain a suitable temperature on the outer surface of the inner tank 220 and the cylindrical structure Formed.

The agitator 330 is formed on the outside of the culture tank 700 to be supplied to the culture tank to be cultured in the culture tank, and the agitator 330 externally supplies raw water (direct water), EM stock solution and nutrients (molasses, etc.). The heater 410 was mounted at the bottom of the stirring barrel 350 so that the mixing was performed well when stirring.

The most important stirring part 330 of the present invention was installed on the outer surface of the culture tank so that the worker can directly check the naked eye to see the working process, as described above, the stirring part is the lower part of the outside A stirring tube 350 is formed on the surface, and the motor 360 including the stirring screw 370 is formed on the fixing plate 400-1 formed on the stirring tube 350, and the fixing plate 400 and the lid are formed. 380 is connected to the hinge 390 to configure the handle 280 to be opened and closed, and the raw material feed pipe 300 to form a straight pipe valve 460 and the lower portion of the raw material conveying pipe 310 in the upper portion of the stirring tube; ) To supply the culture solution to the culture tank. The stirring unit 330 was operated to mix evenly so that the rotation speed of the motor 360 rotates slowly.

The raw material transfer pump 300 was configured to transfer the culture solution stirred in the stirring unit 330 to the raw material inlet 110 of the culture tank through the raw material transport tube 310. An on-off valve was formed at the outlet to be discharged after washing to discharge after washing.

Steam generator 470 is a boiler is built to be installed on the side of the culture tank was formed to heat the water to generate steam and to perform the washing and sterilization in the culture at the pressure of steam at the same time.

Steam generated from the steamer 470 is supplied to the washing head 280 connected to the washing tube 150 through the steam supply pipe 440. A washing head 280 having a plurality of through holes formed at an end thereof is formed, and a boiler (not shown) is formed inside the steam generator 470 to supply steam to the washing head to supply steam within a short time. The culture tank was cleaned and sterilized with steam. In addition, the steam generator 470 is mounted on the upper portion of the case 600 formed on the side of the culture tank to supply steam to the washing head mounted in the culture tank to be washed and sterilized. The steam generated by the steam generator is blocked or passed through the on-off valve 450 mounted on the steam supply pipe 440 so as not to mix with the washing water.

The water heater 540 is mounted on the lower part of the case 600, and a boiler (not shown) is built in such a manner that hot water is supplied to the culture tank so that hot water is supplied quickly. It was formed to supply a hot water to the culture tank at a set temperature to enable a rapid temperature.

The water heater 540 is connected to the water supply port 100 of the culture tank to be supplied with hot water. In addition, the hot water is connected to the pipe so that it can be used as the wash water, it was equipped with a selection valve 480 to block and supply.

The water purifier 530 is mounted at the lower part of the case 600 and can be installed at the upper part or the lower part of the case 600 so as to purify the ground water or the tap water to purify the water supplied to the culture tank, so that the water quality and The temperature was kept.

The water purifier was to supply water used as hot water or to purify water used as water supply to remove chlorine and impurities.

The water purifier is connected to the direct water supply pipe 520 is supplied to the purified water through the water purifier through the purified water pipe 490, the temperature of the water is supplied to the water heater 540 before supplying the purified water to the culture tank By supplying the water according to the conditions of the culture in a short time.

The case 600 is formed on the side of the culture tank and formed to be divided into an upper layer and a lower layer so as to embed the steam generator 470, the water heater 540, and the water purifier 530, and forms an opening and closing door 610. Inspection and key devices were made possible, and in particular, a see-through window 620 was formed to see the inside.

In the present invention, existing separate facilities (water purification facilities, steam facilities, hot water facilities, etc.) are difficult to install and move, and boiler facilities, washing facilities, water purification facilities, and many support facilities were needed for convenient installation. It is easy to move and install by intensively installing it, and it has an excellent effect that can be installed and operated immediately.

At the lower end of the culture tank, the culture fluid is circulated in the pump 160 and the pipe shutoff valves 340 and 420 and the washing pump 320 for cleaning and discharging are arranged. The circulation pump 160 was formed to circulate the culture solution in the culture tank so that the circulation pump was operated at regular intervals to circulate the culture solution. In addition, the washing pump 320 to pressurize the water supplied to the washing head 280 to eject the high pressure washing water to wash the foreign matter in the culture tank.

The raw material transfer pump 300 operates and transfers the raw material transfer pump connected to the transfer pipe to forcibly transfer the stirred raw material in the stirring unit. The raw material inlet for injecting the culture stock solution and the circulation tube 110-1 for circulating the culture solution during the cultivation is formed on the side, the upper portion of the culture tank and the washing tube in the closed lid to supply the water supply port and the cleaning solution to supply the water It is supplied to a connected washhead.

On the upper surface of the culture tank is formed a pressure relief valve 130 for discharging the internal gas generated during the cultivation to the outside and a vacuum relief valve 140 to prevent the vacuum is generated in the tank when discharging the culture solution It prevented the generation of vacuum and discharged to the outside when the pressure is generated. The low water level sensor 180 was installed to know the low water level.

A temperature sensor for constituting the discharge tube 260 for discharging the culture medium cultured in the culture tank to the outside and the horizontal heater 290 formed on the lower surface to maintain the temperature in the culture tank 25 to 35 degrees and detects the temperature in the culture tank It consists of 170.

The control unit 250 controls the culture tank to mix the feed stock and raw water at a blending ratio to supply the feed into the culture tank, control the operating time of the circulation pump 160 to mix the culture stock in the culture tank, the optimum temperature of the culture The temperature of the heater was controlled to maintain the temperature, the culture state in the culture tank was checked in real time to inform the discharge time to the lamp or alarm, and the valve was formed on the outside to integrally control circulation, supply, and discharge.

The present invention was to install the circulation pump and the pipe to circulate the culture medium required for operation in the culture tank through the circulation pipe as described above to repeat the operation and stop for a certain time. At the time of washing, the washing water was discharged to the outside and the drain pipe 270 was formed to discharge the sludge. In addition, the inner tank 220 and the outer tank 240 of the culture tank may be formed of stainless steel or the inner tank may be made of synthetic resin. In addition, the culture tank is formed in a cylindrical structure and is formed in a double structure to maintain the temperature required for cultivation is filled with a heat insulating material 230 therebetween to increase the insulating force.

One example of the main EM fine microorganisms to be cultured is photosynthetic bacteria: carbon dioxide and hydrogen compounds, which survive under high pressure and temperature conditions, and synthesize organic compounds and produce oxygen for photosynthesis.

Lactobacillus: A microorganism with a strong ability to process perishables and make it preservable, and serves as the first fermentation of organic matter for EM. Actinomycetes: The amino acids produced by photosynthetic bacteria produce antibacterial substances (such as streptomycin). Yeast: It performs various fermentations, grows well at low acidity, and produces useful substances for crops such as amino acids, sugars, and other soil organic matter emitted by photosynthetic bacteria.

In the present invention, when the microorganisms are cultured by adding a nutrient source to the culture tank, as a result of the measurement, the culture efficiency of the microorganisms can be seen that the peak reaches about 75 to 90 hours. Therefore, it would be desirable to set the culture medium supply cycle accordingly.

It is composed of a heater configured to maintain the temperature in the culture tank 25 to 35 degrees and a temperature sensor 170 for sensing the temperature. The heater is configured to maintain a constant temperature in the culture tank. The heater can be configured in one or the top and bottom respectively. The temperature sensor was controlled to maintain the proper temperature for cultivation to control the operation of the heater.

In addition, since the external element of the growth of useful microorganisms (EM) requires a device for circulating or moving the culture at a constant temperature of 25 to 35 degrees, the present invention has an inner cylinder of stainless steel or a synthetic resin, and the culture is evenly distributed in a cylindrical structure. The culture solution in the culture tank was discharged into the circulation pipe through the circulation pump to be circulated.

In addition, the operation of the heater is configured to be displayed by detecting the temperature sensor, and configured to automatically adjust the temperature, and when the culture medium discharged and cultivated after cultivation automatically supplying the stirred stock solution from the stirring section suitable for the culture tonnage purified water and culture Stock solution was supplied.

The supply of raw water is formed step by step to measure the raw water filled in the culture tank through the low water level sensor 180 to supply the culture stock solution when a certain amount of raw water is supplied, and when the raw water is supplied to the highest point, the water level over shutoff valve ( 210) is configured to close.

The controller 250 checks the culture state in the culture tank in real time to inform the discharge time to the lamp or alarm, and to be controlled by the controller integrally to discharge.

Another embodiment of the present invention is configured to wash the inside through the washing head because the culture tank shown in Figures 4 to 6 is difficult to wash from the outside.

However, the close to the cleaning head 280 is easily washed by the water pressure and steam, but the cleaning to a long distance is not made precisely. Therefore, the present invention was formed to facilitate the washing and sterilization by moving the washing head in the culture tank.

The washing unit 710 illustrated in FIG. 6 is provided in multiple stages so that the washing head tube is lengthened or shortened due to the mounting of the inner cylinder cylinder 650 and the first spring 670 inserted into the outer cylinder 650. The first piston 660, the second piston 680, and the second spring 680 are connected to each other.

The outer cylinder is fixed to the hermetic lid 120 is formed so that the washing pipe 150 is connected to the upper portion, the inside is a through structure is formed through the bottom plate 650-1 at the lower end.

The first spring 670 and the first piston 660 are mounted in the outer cylinder 650. The first piston 660 has a cylindrical structure in which a protruding head 660-1 protruding outward and a bottom plate 660-2 penetrated therein are formed.

The second piston 680 is mounted together with the second spring 690 in the interior of the first piston, and has a structure through which the protrusion head 680-1 protrudes outward and penetrates therein, and the end of the second piston. The cleaning head 280 has a feature formed.

A first spring 670 and a first piston 660 are mounted in the outer cylinder 650, and a second spring 690 and a second piston 680 are inserted into the first piston 680. In addition, the cleaning head 280 is formed with a plurality of through holes formed at the end of the second piston.

When the piston contracted with each other in the force of the spring as shown in FIG. The length is expanded as shown in FIG. As the expanded length is closer to the lower end of the culture tank is characterized in that the efficiency of washing and sterilization is increased.

At this time, if the pressure of the steam generator is reduced, it is contracted by the force of the spring to return to the original state. When the washing pump is operated for washing, the washing water is discharged and the washing head is formed to move to the bottom of the culture tank as the water pressure increases.

When the water pressure decreases, the first and second pistons are formed to return to their original state by the force of the spring.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. . Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: water inlet 110: raw material inlet
120: closed lid 130: pressure relief valve
140: vacuum relief valve 150: cleaning tube
160: circulation pump 170: temperature sensor
180: low water level sensor 190: circulation pipe
220: inner tank 230: insulation
240: outer tank 250: control unit
260: discharge pipe 270: sludge drain pipe
280: cleaning head 290: horizontal heater
300: material feed pump 310: material feed pipe
320: washing pump 330: stirring
340: valve opening 350: stirring barrel
360: motor 370: stirring screw
380: lid 390: hinge

Claims (3)

Culture tank consisting of a heat insulating material and the outer surface on the outer surface configured to increase the thermal insulation power to maintain a suitable temperature on the outer surface of the culture inner tank of the cylindrical structure; An agitating unit for agitating and supplying raw water, EM stock solution and nutrients (molasses, etc.) supplied into the culture tank; A supply unit configured to supply a raw material inlet and raw water to supply the culture solution to the culture tank; A culture solution discharge pipe including a pressure relief valve and a vacuum release valve for discharging the internal gas generated during the cultivation to the outside, and a discharge pipe for discharging the culture medium to the outside; A heating unit comprising a horizontal heater configured to maintain the temperature in the culture tank at around 25 to 34 and a temperature sensor for sensing the temperature; Control the supply of raw liquid and raw water, control the operating time of the circulation pump to mix the culture solution, control the temperature of the heating part to maintain the optimum temperature of the culture, check the culture state in the culture tank in real time Or in the culture device consisting of; a control unit for notifying by alarm, integrated control to be discharged,
A case having an opening and closing door is formed on the side of the incubator, and an opening and closing valve and a steam supply pipe are formed to control the opening and closing of the steam generator and steam to perform sterilization and washing in the culture tank inside the case. By connecting a washing tube, steam is supplied to the washing rod and the washing head to form a steam to be discharged to the culture tank wall so that sterilization and washing can be performed at the same time, and at the bottom of the case to increase the temperature of the water supplied to the culture tank. Intensive pure sterilization apparatus characterized in that equipped with a water heater consisting of a hot water supply pipe and a selection valve, and a water purifier to remove foreign substances and chlorine to the water supplied to the culture tank.
According to claim 1, wherein the cleaning unit
Intensive pure sterilization apparatus characterized in that the washing head in the culture tank is formed to be as close as possible to the washing site to move up and down in the culture tank by increasing or decreasing the length in the vertical direction.
According to claim 1, wherein the cleaning unit
The outer cylinder cylinder is fixed to the sealed lid to form a washing tube connected to the upper portion, the inner cylinder is formed in the lower end through the bottom plate,
The first spring and the first piston is mounted to the inside of the outer cylinder, the first piston is formed in a cylindrical structure having a protruding head protruding to the outside and a bottom plate penetrated therein, the second piston is protruded to the outside The through-head and the inside of the projecting head is formed in a structure, the end rod tube of the second piston intensive pure sterilization culture device characterized in that the washing head is formed.

Images