KR200143408Y1 - Apparatus for cultivating bean sprout - Google Patents

Abstract

In the bean sprouts cultivator for supplying a certain amount of water from the cultivation container for germinating and growing raw soybeans, the auxiliary water can (2) with the auxiliary siphon pipe (3) in the main water can (4) with the main siphon pipe (5) embedded therein It is installed slightly higher and the number of drops falls to the auxiliary water supply tank (2), and the diameter of the auxiliary siphon pipe (3) is smaller than the diameter of the main siphon pipe (3), and the siphon phenomenon of the auxiliary water supply tank (2) The outflowing flow rate q is automatically flowed out larger than the flow rate q1 of the main water supply tank 4 by the height difference from the internal and external measurement points of the main siphon pipe 5, and the outflowed supply water passes through the fountain plate 8. Supplied to the cultivation barrel (7), the process is made soybean sprout cultivator, characterized in that configured to reach the drain 15.

Description

Bean Sprout Cultivator

1 is a cross-sectional view showing an installation configuration for explaining the present invention.

2 is an enlarged cross-sectional view of the structure of the water supply unit, which is the main part of the present paper, and the fountain plate and the growing container.

3 is a side view of the present invention.

4 is a block diagram showing another embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

end. Multiple Forged Cultivator

1: water supply pipe 2: auxiliary water supply tank

3: assistant siphon pipe 4: main water bottle

5: main siphon pipe 6: air supply port

7: first cultivation container 8: first fountain plate

9: air supply port 10: second cultivation container

11: second fountain plate 12: air supply port

13: third cultivation container 14: third fountain plate

15: drain box 16: drain hole

I. Multiple Demodulator Planters

1: water supply pipe 2: auxiliary water supply tank

3: assistant siphon pipe 4: main water bottle

5: main siphon pipe 6 ′: distribution pipe

6 ″: Cork 7: First cultivation container

9, 9 ′, 9 ″: Air supply port 10: Second cultivation container

13: 3rd container 15: drainage container

16: drain hole

This proposal relates to a bean sprout cultivator for growing bean sprouts in large quantities using a double siphon tube.

In more detail, a large amount of water is filled in the water supply tank using a drop of water flowing from a manual tap, and the water is automatically supplied into the growing container at regular intervals by a siphoning action. Since it is impossible to create a vacuum at the location, this paper made the main technology to install another auxiliary siphon pipe as a means to induce the siphon phenomenon, which is able to supply a large amount of water automatically. It is to enable mass cultivation of bean sprouts.

In other words, the injection fund pipe installed in the main water supply tube must supply a large amount of water into the growing container. Therefore, the diameter of the injection fund tube should naturally increase in size. Therefore, the intermittent drops alone do not fill the peak of the siphon pipe. As it passes through the streets, the siphon phenomenon cannot happen.

Therefore, in order to solve the above problems and to enable mass cultivation, a subsidiary canister with a built-in siphon tube is installed in the main canister with the injection siphon tube, and the drip water is collected in the canister. will be. Here, the diameter of the auxiliary siphon tube is much smaller than the diameter of the injection siphon tube, and at the same time, the amount of water supplied q when siphoning occurs in the auxiliary water reservoir is measured at the inner and outer peaks at the apex position of the injection siphon tube embedded in the main water reservoir. The water supply volume of the main water tank must be greater than q₁ by the height difference (△ H).

This is because the water passing through the injection cannula can flow sufficiently to induce a siphon phenomenon.

In general, the conditions necessary for successful bean sprout cultivation should be the proper temperature, water supply necessary for germination and growth, and the removal of respiratory heat generated during the growth of air (oxygen) and germination, and more importantly, to minimize the contamination of decay microorganisms during cultivation. Should give. In order to achieve this purpose, it is important to supply water which is not contaminated with decayed bacteria at regular intervals.

Conventional cultivators supply water to human hands first, or because the cultivator itself is open, so bacteria are more likely to be contaminated due to the possibility of microbial contamination. There is a problem that is easy to do. In addition, in the case of the underwater moto type, it is easy to rot and breaks down, and using the water clock principle requires supplying water to the reservoirs at regular intervals. There is a problem of poor growth and decay due to overheating due to respiratory fever.

This paper solves the problems of non-automatic water supply, high degree of corruption of microorganisms, and frequent failures, which are the defects of the existing cultivator. When described in detail in accordance with the accompanying drawings the technical configuration of the present invention to devise to provide a cultivator that can be grown as follows.

1 is a diagram showing a cultivator capable of cultivating a large amount of bean sprouts with a large amount of automatic water supply using a siphon tube as a double, rather than an automatic water supply system with a single siphon tube. The auxiliary water supply canister (2) has a main water supply canister (4), which is installed in the main water canister (4) in which the main siphon pipe (5) is installed. , The second culture vessel (10) and the third culture vessel (13) is connected in series and the drain container (15) having a drain hole (16) under the third culture vessel (13) is connected in a series of large water supply Bucket (4), drain hole (7-a, 10-a, 13-a) Drainboard with many drilled holes (8,11,14), planter (7,10,13), drain hole (16) (15) can be removed and assembled.

2 is an enlarged cross-sectional view of the structure of the water supply, which is the main part of the present paper, and the fountain plate and the growing container.

One end (3-a) of the auxiliary siphon pipe (3) is slightly separated from the bottom of the auxiliary water supply container (2) and the other end (3-b) penetrates the bottom (2a) of the auxiliary water supply container (2) The height of the auxiliary siphon tube (3) is always lower than the top of the water tank. The same applies to the main siphon tube 5. In addition, the height of the main siphon tube 5 is always positioned slightly lower than the tip (H ') of the injection siphon tube (5) than the end of the auxiliary siphon tube (3-b).

One fountain plate (8, 11, 14) is put into each of the cultivation barrel (7, 10, 13), and the bottom of the fountain plate has a suitable number of holes for the fountain and air supply.

The bottoms 7-a, 10-a, and 13-a of the first, second, and third cultivation barrels 7, 10, and 13 are provided with a network structure or an appropriate number of holes for functioning drainage and air flow.

The air supply ports 6, 9 and 12 are placed at the bottom and the wall meets the cultivation container to form a space through which air can be distributed when connecting the cultivation container.

4 is the same principle as described in FIG. 1, but only water flowing from the main water supply can 4 is divided into two distribution pipes 6 'each having a water cock 6 ″, and at the end of each distribution pipe. It is a demodulation type that connects the first (7), 2 (10), and 3 (13) cultivation barrels with the fountain plate and the air holes (9, 9 ', 9 ") to the mass production of bean sprout cultivation volume. In order to try to cultivate the cultivation of the demodulation.

The structure of the above cultivation barrel and the fountain plate is the same as the description of FIG.

3 is a side view.

The following is a description of the actual important working characteristics of this proposal.

When water from the water supply pipe (1) drips or thin streams of water are collected in the auxiliary water supply tank (2), the water level increases at the h level and rises to the h ′ level, and a siphon phenomenon occurs. While the siphon phenomenon is repeated, the water level in the main water canister 4 gradually rises from the H level and reaches the H 'level, and water accumulated in the main water canister 4 flows into the fountain plate in the first container. Will fall. What is important here is that the water flowing down is collected several times from the water supply basin. Therefore, since a large amount of water flows down from the auxiliary siphon pipe 3, the single siphon tube is capable of mass cultivation than a planter composed of a water supply tank in which the single siphon tube is installed. The water flowing down the main water supply canister (4) is fountained between the bottom of the first cultivation vessel (7) and the fountain plate (8) to supply water to the soybean layer already placed between the cultivation vessel and the fountain plate. The water passed through this part is absorbed to a very small portion and the remaining passes through the bottom of the cultivation container to the fountain plate 11 placed in the second cultivation container (10) to be passed through the soybean layer lying under the fountain plate. Water passing through the second cultivation vessel (10) is passed through the third cultivation vessel (13), such as passed through the first (7) and the second cultivation vessel (10) flows down to the drain container (15) As a series of processes continue dynamically, as long as water is supplied from the water supply pipe (1), the germination and growth of bean sprouts and soybeans are removed, fresh air replacement and microbial contamination density are reduced. It is convenient to grow beans after a certain amount of time without putting effort.

Although not shown in the above structure, it is possible to increase the drainage amount of the main water supply tank by installing up to 3-4 auxiliary water supply tanks such as an auxiliary water supply tank in the main water supply tank. Although not shown in the drawings, the above-described configuration may be incorporated in a cabinet to be beautiful.

Sprouts are a rather conspicuous food for our people, and the hygienic safety and nutrition of soybean sprouts have a great impact on the nutrition and health of the people. Unfortunately, the fact that the use of pesticides and other harmful substances in cultivating bean sprouts these days has been caught so far that it is a big social problem. As a result, there is a great need to grow and consume the food directly at home, school meals, public restaurants, and hospital restaurants.

In light of this necessity, the present invention can be said to be a cultivator that meets this need.

1. No electricity or manpower required.

2. It is preferable to adjust the number of watering depending on the season, that is, according to the temperature. This planter can be easily adjusted by adjusting only the flow rate in the water supply pipe (1).

3. Soybean sprouts can be cultivated soundly by eliminating contamination and overheating problems caused by germination and growth at regular intervals.

4. Non-open supply of sterilized tap water can significantly reduce the risk of decay.

5. When only tap water is prepared, it can be grown completely automatically without the need for human hands.

6. When using three-stage cultivation container, the cultivation period can be reduced to at least one third by adding soybeans with lag.

7. If tap water is used, a significant amount of chlorine gas is released during tapping (2-4 hours) in the water tank, reducing the harm of chlorine gas.

8. This cultivation plant is useful for growing germinated foods such as bean sprouts, bean sprouts, malt, buckwheat sprouts and radish sprouts.

9. It can be cultivated even in winter when heater is installed in water tank.

10. This study can expect to shorten the cultivation period and to germinate evenly and save seeds if seeds are sprouted before sowing various crop seeds.

11. This proposal is practical as a regular watering device for automatic ordering in pots or growing various crops.

12. This proposal can be used as a factory for automatic supply of coolant and fluid periodically.

13. The Proposal may soundly grow bean sprouts in general restaurants, schools, hospitals and military service groups serving unspecified masses, as well as traps or merchant vessels lacking fresh vegetables.

Claims (2)

In the bean sprouts cultivator for supplying a certain amount of water from the growing cultivation container to germinate and grow raw soybeans, the auxiliary siphon tube (3) is embedded in the main siphon tube (4) having the main siphon tube (5). ) Is set slightly higher and the drip number is dropped in the auxiliary water supply container (2), the diameter of the auxiliary siphon tube (3) is smaller than the diameter of the injection siphon tube (3), the siphon of the auxiliary water supply container (2) The flow rate q flowing out to the plate is automatically flowed out larger than the flow rate q₁ of the main water supply tank 4 by the height difference (ΔH) between the internal and external measuring points of the main siphon pipe 5, and the supplied water is discharged Sprouts grower, characterized in that it is supplied to the cultivation barrel (7) through the plate (8), and configured to reach the drainage bucket (15) while this process is made sequentially. The bean sprouts cultivator according to claim 1, characterized in that the cultivation barrel is formed by demodulating the plural lines in a plurality of lines at the end of the distribution pipe (6 ') of the water flowing out of the main water supply tank (4).