KR102233932B1 - Germination equipment of grain - Google Patents

Abstract

The present invention relates to a grain germination apparatus for sowing a variety of grains including corn, such as rice and soybeans, with sprouts to increase the germination survival rate before sowing, and the configuration comprises: a main body having a water receiving part, and the water A cover with a humidification generating unit positioned on the receiving unit, a distribution tube with a plurality of humidification spouts formed and open at the top and bottom, a shelf mounted on the top of the cover, and the water of the water receiving unit are heated to a target temperature A heating means, an oxygen supply means for supplying oxygen to the humidification generator, a water level sensor for sensing the water level inside the body, and a lid for opening and closing the open upper part of the main body.

Description

Germination equipment of grain

The present invention relates to a grain germination apparatus in which a variety of grains including corn, such as rice and soybeans, are sown by floating sprouts in order to increase the germination survival rate before sowing.

Grain germination requires adequate temperature, moisture and oxygen. If one of these is insufficient, germination cannot be achieved normally. In the natural state, these conditions are not sufficient and germination is delayed, and germination is not possible and is often lost in the ground. Therefore, a device for artificially promoting germination is required.

Due to the necessity of the above, a “seed germination device” of Korean Patent Registration No. 10-0444186 is provided, and the seed germination is a device used for seed germination and nurturing aquatic organisms, and functions to control temperature and air. It proposes a device that is used as a movable and detachable device by connecting the parts that function as the parent body and dispersing heat and air with wires and tubes, respectively.

In addition, in the "Semi-automatic seed hot water sterilizer for rice seed germination" of Korean Patent Registration No. 10-1427374, the operation of putting seeds into the hot water is manually input using a winch, and seeds are removed from the hot water when seed sterilization is completed. The work is automatically taken out by a winch using a timer, thereby reducing manufacturing cost and at the same time promoting the convenience of work, and also proposes a semi-automatic seed hot water sterilizer that can be used as a rice seed germination machine.

In addition, the name of the design of Korea Utility Model Registration No. 20-0449039, "Bypseed and Seed Gerber", relates to the Bypseed and Seed Gerber. An air pump for supplying air to two buckets containing rice seeds and seeds, and two And a temperature controller for heating the water stored in each of the buckets and measuring the temperature of the heated water; The air pump includes a drive shaft that is reciprocally driven in a left and right direction by a coil wound transformer, a pair of pumps that generate air by being driven by being connected to the drive shaft, and an air hose respectively connected to the discharge ports of the pair of pumps. It is proposed to include an air sprayer connected to and installed in each of the water tanks.

However, many of the above-described conventional techniques mainly describe in detail a technique for controlling the temperature of water, but descriptions and techniques for oxygen supply and humidity management essential for germination have been lacking.

Korean Patent Registration No. 10-0444186 "seed germination". Korean Patent Registration No. 10-1427374, "Seed hot water sterilizer for both rice seed germination". Korea Utility Model Registration No. 20-0449039 The name of the design "rice seed and seed germination".

The present invention was invented in order to meet the insufficient technology of the prior art, and the object is to sow various grain seeds such as rice, beans, etc., including corn, with floating sprouts to increase the germination survival rate before sowing. By optimizing the conditions of moisture, temperature, and oxygen required for the seeds to germinate, a large amount of grain seeds can be germinated at once, and the germination rate is increased, and a grain germination device is provided to induce the production of healthy germinated seeds. Is in.

The configuration of the problem solving means of the present invention for achieving the above object,
A water receiving portion 110 in a concave shape for collecting water is formed in the center of the bottom surface, and a water flow path 120 leading to the inner wall of the main body is formed at the outer end of the water receiving unit 110 from the inner wall of the main body. It is formed in a concave shape so as to have a downward inclination toward the water receiving part and maintained at regular intervals, and a stepped 130 is formed at an end of the water receiving part of the water flow path, and a main body at any one of the water flow path A cylindrical body 100 with an open upper portion formed by forming a drain hole 140 for draining the water inside to the outside;
It is located on the water receiving part and a hole 240 is perforated in the center, a humidification generating part 210 is formed, and a protrusion extending from the outer circumference of the humidification generating part to the outer circumference of the cover is formed on the upper surface. Bands 230 are formed at regular intervals, and between the protruding bands, a plurality of holes 220 are perforated to form a cover 200;
A plurality of humidification spouts 320 are formed in the body 310 vertically erected by inserting a portion of the lower end of the humidification generator, the upper/lower ends are open, and a flange part 330 is formed at the lower part, and the flange part The outer periphery of the coupling grooves 340 are formed at regular intervals, and a distribution pipe 300 formed by detachably installing a cap 350 having a plurality of humidification spray pipes 360 installed at the upper end thereof;
A through hole 410 through which the distribution pipe penetrates is formed in the center so as to be placed on the top of the cover, and a drainage passage 420 is formed on the upper surface thereof, and the drainage passage extends from the outer periphery of the through hole to the outer periphery of the shelf. The drainage channel is formed to be continuously repeated, handles 430 are installed on both sides of the surface, and a shelf 400 formed by forming a reinforcing rib 440 on the rear surface thereof;
A heating means (500) installed in the water receiving unit to heat the water of the water receiving unit to a target temperature, and having one end connected to the control unit (C) installed in the main body;
An oxygen supply means 600 having a plurality of oxygen supply ports 610 for supplying oxygen to the humidification generating unit connected to a hose 620;
An upper water level detection sensor 710 connected to the control unit on a lower side of the main body to sense the water level inside the main body to detect the upper surface line level of the cover, and a lower water level detecting the upper line level of the water flow path A water level detection sensor 700 composed of a detection sensor 720;
A lid 800 provided to open and close the opened upper part of the main body as necessary;

A height adjusting means (900) for adjusting the installation height of the shelf while supporting and supporting the lower part of the shelf under the shelf 400; It consists of a configuration that includes.

delete

delete

delete

delete

delete

delete

delete

The grain germination apparatus of the present invention having the configuration as described above, as described above, is sown by floating sprouts in order to increase the germination survival rate before sowing various grain seeds such as rice, beans, etc., including corn. At this time, a large amount of grain seeds can be germinated at once by optimizing the conditions of moisture, temperature, and oxygen required for the seeds to germinate, and there is an effect of increasing the germination rate and inducing the production of healthy germinated seeds.

1 is a perspective view of a grain germination apparatus of the present invention,
2 is a partially cut-away perspective view of the grain germination apparatus of the present invention,
3 is an exploded perspective view of the grain germination apparatus of the present invention,
Figure 4 is a cross-sectional view of the grain germination apparatus of the present invention,
Figures 5a and 5b is an excerpt perspective view showing an embodiment of a distribution pipe in the grain germination apparatus of the present invention,
6A and 6B are a perspective view of an excerpt for explaining the structure of the upper and lower surfaces of the shelf in the grain germination apparatus of the present invention,
7 is a cross-sectional view for explaining the water level in a state called grain in the grain germination apparatus of the present invention,
8 is a cross-sectional view for explaining the water level when germinating grains in the grain germination apparatus of the present invention.

The present invention relates to a grain germination apparatus for sowing with floating sprouts to increase germination survival rate before sowing various grains such as rice, beans, etc., including corn, and the embodiments will be described with reference to the accompanying drawings. .

- under -

In the grain germination apparatus of the present invention, as shown in Figs. 1 to 4, a water receiving unit 110 in a concave shape for collecting water is formed at the center of the bottom surface, and the outer periphery of the water receiving unit 110 At the end, the water flow path 120 leading to the inner wall of the main body is formed in a concave shape so as to have a downward slope from the inner wall of the main body toward the water receiving part, and at the end of the water receiving part of the water flow path Stepped 130 is formed, the upper portion of the cylindrical body 100 formed by forming a drain hole 140 for draining the water inside the body to the outside at any one of the water flow path;
It is located on the water receiving part and a hole 240 is perforated in the center, a humidification generating part 210 is formed, and a protrusion extending from the outer circumference of the humidification generating part to the outer circumference of the cover is formed on the upper surface. Bands 230 are formed at regular intervals, and between the protruding bands, a plurality of holes 220 are perforated to form a cover 200;
A plurality of humidification spouts 320 are formed in the body 310 vertically erected by inserting a portion of the lower end of the humidification generator, the upper/lower ends are open, and a flange part 330 is formed at the lower part, and the flange part The outer periphery of the coupling grooves 340 are formed at regular intervals, and a distribution pipe 300 formed by detachably installing a cap 350 having a plurality of humidification spray pipes 360 installed at the upper end thereof;
A through hole 410 through which the distribution pipe penetrates is formed in the center so as to be placed on the top of the cover, and a drainage passage 420 is formed on the upper surface thereof, and the drainage passage extends from the outer periphery of the through hole to the outer periphery of the shelf. The drainage channel is formed to be continuously repeated, handles 430 are installed on both sides of the surface, and a shelf 400 formed by forming a reinforcing rib 440 on the rear surface thereof;
A heating means (500) installed in the water receiving unit to heat the water of the water receiving unit to a target temperature, and having one end connected to the control unit (C) installed in the main body;
An oxygen supply means 600 having a plurality of oxygen supply ports 610 for supplying oxygen to the humidification generating unit connected to a hose 620;
An upper water level detection sensor 710 connected to the control unit on a lower side of the main body to sense the water level inside the main body to detect the upper surface line level of the cover, and a lower water level detecting the upper line level of the water flow path A water level detection sensor 700 composed of a detection sensor 720;
A lid 800 provided to open and close the opened upper part of the main body as necessary;
A height adjustment means (900) for adjusting the installation height of the shelf while supporting and supporting the lower part of the shelf under the shelf 400; It consists of a configuration that includes.

In the above configuration, the main body 100 receives water as shown in FIG. 2 to induce germination of grains, and a water receiving portion 110 in the form of a concave in which water is collected is formed at the center of the bottom surface. It is made of a cylindrical shape with an open top.

An exemplary configuration of the main body 100 having the above-described configuration is such that a water flow path 120 extending to the inner wall of the main body 100 is maintained at a predetermined interval at the outer end of the water receiving unit 110 ( A plurality of convex) is formed, and the water flow path 120 is formed from the inner wall side of the main body 100 toward the water receiving part 110, and the water receiving part 110 is formed on the inner wall side of the main body 100. It may be formed to have a downward slope toward the water receiving portion 110 and used.

In addition, a drain hole 140 for draining the water inside the main body 100 to the outside is formed and used at any one of the water flow path 120.

However, the water flow path 120 may not be formed to have a downward inclination toward the water receiving portion 110 from the inner wall side of the main body 100, but may be formed to form a flat surface.

In the above configuration, the water flow path 120 is such that when the water inside the body 100 is drained through the drain hole 140, the water inside the body 100 is collected into the water receiving unit 110. It is formed in a concave shape, and the reason why the water flow path 120 is formed to have a downward inclination toward the water receiving unit 110 is that water from the inner wall side of the main body 100 toward the water receiving unit 110 This is to ensure that the process proceeds quickly and easily.

In addition, a drain hole 140 for draining the water inside the body 100 to the outside is installed at any one of the water flow path 120, so that the water level inside the body 100 can be selectively adjusted.

When germinating grain seeds using the apparatus of the present invention, the body 100 is initially filled with water so that all grain seeds to be germinated are immersed in water, soaked sufficiently, and then, when the so-called operation is completed, the drain hole 140 ) To induce germination by draining the water filled in the main body 100 to the extent that the grain seeds for germination are not immersed.

In addition, a stepped portion 130 on which the cover 200 is mounted and supported is formed at the end of the water flow path 120 toward the water receiving portion 110, so that the lower end of the cover 200 is supported by the stepped portion 130 and will And flow is prevented.

The cylindrical body 100 with an open top as described above can be used by forming a cylindrical or quadrangular or more polygonal shape, and preferably a cylindrical shape, and the reason for opening the upper part is that water is placed in the inner circumference of the main body 100. This is to facilitate the insertion or withdrawal of grains to be charged or germinated.

In addition, a rolling wheel 150 is installed under the main body 100 of the present invention to facilitate movement of the main body 100.

The cover 200 of the present invention, as shown in Figs. 2 and 3, is located on the water receiving unit 110 and has a concave-shaped humidification generating unit 210 formed in the center, and the upper surface A plurality of holes 220 are perforated, and the cover 200 supports and supports the lower surface of the shelf 400 described below and at the same time stably supports the lower portion of the distribution pipe 300. Serves to stand and fix.

As shown in FIG. 4, the humidification generating unit 210 has a hole 240 in communication with the water receiving unit 110, so that the water contained in the water receiving unit 110 through the hole 240 is humidified. It is also accommodated in the generator 210.

In an exemplary configuration of the cover 200 as described above, a protruding band 230 extending from the outer periphery of the humidification generating unit 210 to the outer periphery of the cover 200 is provided on the surface of the cover 200 at regular intervals. And the hole 220 is formed between the protruding bands 230.

The reason for forming the protruding strip 230 on the upper surface of the cover 200 is that the lower portion of the distribution pipe 300 described below does not flow and is rigid at the same time as a rib that maintains the rigidity of the cover 200 It plays a role in ensuring that it is fixed properly.

In addition, the reason for forming the hole 220 is to allow water generated from the top of the cover 200 to be drained and introduced into the water receiving unit 110.

In addition, the upper surface of the cover 200 is formed to be positioned higher than the upper surface of the water flow path 120 so that when the shelf 400 described below is mounted, the lower surface of the shelf 400 and the water flow The upper surfaces of the furnace 120 were spaced apart so that when the seeds of the grains to be germinated were germinated, the lower seeds of the grains to be germinated were not immersed in water.

The distribution pipe 300 of the present invention is vertically erected by fitting a portion of the lower end to the humidification generating unit 210, and a plurality of humidification spouts 320 are formed in the body 310, and the upper/lower ends are opened. When hot water sprayed by oxygen dissolved in the humidification generator 210 made of a tubular shape is sprayed as mist, the sprayed mist is evenly distributed inside the main body 100 to the seeds of the grains to be germinated loaded on the shelf 400. It improves germination efficiency by evenly supplying oxygen and temperature along with moisture.

One embodiment configuration of the distribution pipe 300 as described above, as shown in Figure 5a, the flange portion 330 is formed along the outer periphery of the distribution pipe 300 in the lower portion of the distribution pipe 300, The outer periphery of the flange portion 330 is formed by forming a coupling groove 340 at regular intervals, and the reason for forming the flange portion 330 is that it is in close contact with the upper surface of the cover 200 and the distribution pipe 300 ) Is to be fixed stably without flowing, and the reason why the coupling groove 340 is formed on the outer periphery of the flange portion 330 is that the coupling groove 340 is a protruding strip of the cover 200 It is to be coupled to 230 so that the distribution pipe 300 can be fixed and supported more stably.

The distribution pipe 300 as described above may be used by forming a cylindrical shape or a polygonal shape of a quadrangle or more, but preferably a cylindrical shape is good, and the upper/lower ends are opened, and a plurality of humidification spout holes 320 are formed in the body 310 The reason for this is that the hot water mist discharged from the humidification generating unit 210 is discharged through the humidification spout 320 and the upper opening while proceeding to the top through the open lower portion, and evenly inside the main body 100. It is intended to be distributed.

The distribution pipe 300 of the present invention is another embodiment configuration, as shown in FIG. 5B, a cap 350 having a plurality of humidification spray pipes 360 installed on the top of the distribution pipe 300 of the embodiment is provided with the distribution pipe 300 ) Is installed to be detachable from the upper end, and the reason that the cap 350 on which the plurality of humidifying spray pipes 360 are installed is installed on the upper end of the distribution pipe 300 is, in the humidification generating unit 210 This is to more effectively maintain the humidity, oxygen and temperature inside the body 100 by spraying the hot water mist ejected from the dissolved oxygen from the top of the body 100.

The humidification spray pipe 360 is formed so as to have spray holes downward in a plurality of places along the longitudinal direction, so that the humidity, oxygen and temperature of the entire interior of the main body 100 can be evenly distributed, and the top view of the cap 350 It can be used by drilling a hole so that humidification can be ejected.

The shelf 400 of the present invention is to induce germination by loading the seeds of the grain to be germinated as shown in FIGS. 6A to 6B, and a bag in the form of a net in which the grains to be germinated do not come out when the grains to be germinated are loaded. It is preferable to put it in a storage box.

The shelf 400 as described above is formed by forming a through hole 410 through which the distribution pipe 300 penetrates in the center so as to be placed on the top of the cover 200 and a drainage passage 420 on the upper surface thereof. Done.

The reason for forming the through hole 410 in the shelf 400 is to allow the distribution pipe 300 to be inserted, and the reason for the formation of the drainage passage 420 is that moisture from grains loaded on the shelf When the water is drained, the drained water proceeds along the drainage passage 420 to be drained through the through hole 410.

However, a hole may be drilled in the drainage passage 420 to drain moisture through the hole.

In the drainage passage 420 as described above, a drainage passage extending from the outer periphery of the through hole 410 to the outer periphery of the shelf 400 is formed continuously and repeatedly, and handles 430 on both sides of the shelf 400 are formed on the surface of the shelf 400. ) Is installed, and a reinforcing rib 440 is formed on the rear surface of the shelf 400 as shown in FIG. 6B to maintain the rigidity of the shelf.

The handle 430 is for facilitating the movement of the shelf 400 when moving the shelf 400 and for facilitating work when the shelf is placed or removed from the main body 100.

The heating means 500 of the present invention is arranged in the water receiving unit 110 to heat the water in the water receiving unit 110 to a target temperature, and one end is connected to the control unit C installed in the main body 100 Is installed.

The temperature of heating the water in the water receiving unit 110 using the heating means 500 varies depending on the grains to be germinated, but in the case of corn and rice, 30-35°C is preferable.

The heating means 500 is a heater rod that heats when the water temperature of the water receiving unit 110 is less than the target temperature and stops heating when it exceeds the target temperature, which is controlled by the controller C.

The oxygen supply means 600 of the present invention is to supply oxygen through a hose 620 to the oxygen supply port 610 and the oxygen supply port 610 for supplying oxygen to the humidification generating unit 210, When oxygen is supplied from the oxygen supply means 600 to the oxygen supply port 610 through the hose 620, the supplied oxygen is discharged to the humidification generating unit 210 and bubbles in the water contained in the humidification generating unit 210 And oxygen is dissolved to distribute moisture and oxygen to the inside of the main body 100 through the distribution pipe 300 in the form of mist to evenly supply moisture and oxygen to the seeds of the grains to be germinated loaded on the shelf 400 It is done.

At this time, since the water present in the humidification generating unit 210 is hot water heated to the target temperature by the heating means 500, the temperature inside the body 100 is also maintained at a temperature suitable for germination of the seeds of the grain.

The water level sensor 700 of the present invention is installed to be connected to the control unit C on a lower side of the main body 100 to detect the water level inside the main body 100, as shown in FIG. When the grains loaded in the 400 are sufficiently soaked, germination occurs only when adequate moisture, oxygen and temperature are maintained without being immersed in water.When the grains are germinated, the water level inside the main body 100 is turned into a shelf. It is located under the 400 so that the grain loaded on the shelf 400 is not immersed in water.

Therefore, the water level sensor 700 of the present invention is installed inside the lower part of the main body 100, and the configuration of an embodiment of the water level sensor 700 as described above includes the upper water level sensor 710 and the lower water level sensing device. Consisting of a sensor 720, the upper water level detection sensor 710 is installed so as not to exceed the upper surface line of the cover 200, the lower water level detection sensor 720 of the water flow path 120 It is installed to detect the upper line.

The reason is that, when the water exceeds the upper surface line of the cover 200 as shown in FIG. 8 when the grain is germinated, the lower portion of the seed of the grain loaded on the shelf 400 is immersed in water, There may be a problem in that grain seeds are not germinated, and if the water maintains the upper line of the water flow path 120, the amount of water is too small, so when the water is heated using the heating means 500, heating is not effectively performed. This is because there may be problems that cannot be done.

The lid 800 of the present invention is to open and close the open upper part of the main body 100 as necessary, and cover the lid 800 when the grains to be germinated on the shelf 400 germinate. Moisture, oxygen, and temperature are protected, and when germination is complete or when germination is not performed, the lid 800 can be opened.

In addition, in the lower part of the shelf 400 of the present invention, a height adjusting means 900 for adjusting the installation height of the shelf 400 while supporting and supporting the lower part of the shelf 400 is installed, so that the cover 200 and the shelf ( 400) to be able to adjust the separation distance.

The reason for installing the height adjustment means 900 for adjusting the installation height of the shelf 400 as described above is to control the amount of water accommodated in the lower portion of the main body 100 when the grains to be germinated are germinated.

An embodiment of the height adjustment means 900 supports and supports the lower surface around the through hole 410 of the shelf 400 in the humidification spout 320 of the distribution pipe 300 as shown in FIG. 9. Earth 910 is installed to be disassembled and coupled from the humidification spout 320, and a support 920 that supports and supports the lower surface of the shelf 400 is installed on the upper surface of the cover 200 .

It is preferable that the support 920 supports and supports the lower surface of the shelf 400 in a plurality of places. The reason is that since the grain to be germinated is loaded on the shelf 400, the load of the grain to be germinated must be endured.

As described above, in the method of germinating grain using the grain germination apparatus of the present invention, as shown in FIG. 7, grain is loaded on the shelf 400, and the top of the loaded grain is sufficiently loaded inside the main body 100. After filling with water so that it can be immersed, the lid 800 is covered, and the grain is sufficiently soaked by preventing a certain period of time, and then, when the soaking of the grain is completed, the water is drained through the drain 140 to raise the water level. As shown in Fig. 8, the upper water level detection sensor 710 is positioned to the upper surface line of the cover 200 that is sensed.

In such a state, when the heating means 500 is operated to heat water to a target temperature and oxygen is supplied by operating the oxygen supply means 600, air bubbles due to oxygen supply are generated in the humidification generating unit 210 and stirred. At the same time, the water in which the oxygen is dissolved is vaporized in the form of mist, and it is distributed evenly into the body 100 through the distribution pipe 300, and is evenly distributed to the grains to be germinated loaded on the shelf 400 to promote germination. It is done.

At this time, since the mist evenly distributed inside the main body 100 is hot water heated to the target temperature by the heating means 500, the temperature of the grains to be germinated loaded on the shelf 400 is also maintained at a suitable temperature for germination. .

As described above, the present invention provides the moisture, temperature, and moisture required for the seeds to germinate when sprouts are sprouted in order to increase the germination survival rate before sowing various grain seeds such as rice and beans, including corn, as described in the above effect. By optimizing the oxygen conditions, a large amount of grain seeds can be germinated at once, the germination rate is increased, and healthy germination seeds can be produced.

100: main body 110: water receiving portion
120: water flow path 130: stepped
140: drain 200: cover
210: humidification generator 220: hole
230: protruding strip 300: distribution tube
310: body 320: humidification spout
330: flange portion 340: coupling groove
350: cap 360: humidification spray pipe
400: lathe 410: through hole
420: drainage 430: handle
440: reinforcing rib 500: heating means
600: oxygen supply means 610: oxygen supply port
620: hose 630: pedestal
700: water level detection sensor 710: upper water level detection sensor
720: lower water level sensor 800: lid
900: height adjustment means 910: support
920: support C: control unit

Claims (11)

A water receiving portion 110 in a concave shape for collecting water is formed in the center of the bottom surface, and a water flow path 120 leading to the inner wall of the main body is formed at the outer end of the water receiving unit 110 from the inner wall of the main body. It is formed in a concave shape so as to have a downward inclination toward the water receiving part and maintained at regular intervals, and a stepped 130 is formed at an end of the water receiving part of the water flow path, and a main body at any one of the water flow path A cylindrical body 100 with an open upper portion formed by forming a drain hole 140 for draining the water inside to the outside;
It is located on the water receiving part and a hole 240 is perforated in the center, a humidification generating part 210 is formed, and a protrusion extending from the outer circumference of the humidification generating part to the outer circumference of the cover is formed on the upper surface. Bands 230 are formed at regular intervals, and between the protruding bands, a plurality of holes 220 are perforated to form a cover 200;
A plurality of humidification spouts 320 are formed in the body 310 vertically erected by inserting a portion of the lower end of the humidification generator, the upper/lower ends are open, and a flange part 330 is formed at the lower part, and the flange part The outer periphery of the coupling grooves 340 are formed at regular intervals, and a distribution pipe 300 formed by detachably installing a cap 350 having a plurality of humidification spray pipes 360 installed at the upper end thereof;
A through hole 410 through which the distribution pipe penetrates is formed in the center so as to be placed on the top of the cover, and a drainage passage 420 is formed on the upper surface thereof, and the drainage passage extends from the outer periphery of the through hole to the outer periphery of the shelf. The drainage channel is formed to be continuously repeated, handles 430 are installed on both sides of the surface, and a shelf 400 formed by forming a reinforcing rib 440 on the rear surface thereof;
A heating means (500) installed in the water receiving unit to heat the water of the water receiving unit to a target temperature, and having one end connected to the control unit (C) installed in the main body;
An oxygen supply means 600 having a plurality of oxygen supply ports 610 for supplying oxygen to the humidification generating unit connected to a hose 620;
An upper water level detection sensor 710 connected to the control unit on a lower side of the main body to sense the water level inside the main body to detect the upper surface line level of the cover, and a lower water level detecting the upper line level of the water flow path A water level detection sensor 700 composed of a detection sensor 720;
A lid 800 provided to open and close the opened upper part of the main body as necessary;
A height adjusting means (900) for adjusting the installation height of the shelf while supporting and supporting the lower part of the shelf under the shelf 400; Grain germination apparatus, characterized in that it comprises a configuration.
delete delete delete delete delete delete delete The method of claim 1,
The oxygen supply port (610) is a plurality, the oxygen supply means (600), grain germination apparatus, characterized in that fixedly installed on the support 630 provided on the upper portion of the control unit (C) installed in the main body. delete delete

Images