KR20200046494A - Germination equipment of grain - Google Patents

Abstract

The present invention relates to a grain germination apparatus for germinating grains before various kinds of grains, such as corn, rice, bean, and the like, are sowed in a farmland to increase a germination survival rate, thereby enabling a farmer to sow the germinated grains. According to the present invention, the grain germination apparatus comprises: a main body having a water storage unit formed therein; a cover having a humidity generation unit disposed on the water storage unit; a distribution pipe having a plurality of humidity discharge holes formed therein and having open upper and lower ends; a shelf placed on the upper part of the cover; a heating means heating the water of the water storage unit at a target temperature; an oxygen supply means supplying oxygen to the humidity generation unit; a water level sensor detecting a water level inside the main body; and a lid opening/closing the open upper part of the main body.

Description

{Germination equipment of grain}

The present invention relates to a grain germination device that allows seed to be planted with sprouts in order to increase the germination survival rate before sowing various kinds of grains, such as rice and soybeans, including corn.

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

Due to the necessity of the above, "Seed germination" of Korean Patent Registration No. 10-0444186 is provided, and the seed germination is a mechanism used for seed germination and rearing of aquatic organisms. It is proposed to be a device that is used as a mobile and separated type by connecting the parts that function as heat and air dispersing functions with wires and tubes, respectively.

In addition, in the Korean Patent Registration No. 10-1427374, "Semi-automatic Seed Hot Water Sterilizer Combined with Rice Seed Germination", the operation of injecting the seeds into the hot water is manually performed using a winch, and after seed disinfection is completed, the seeds are taken out from the hot water. It is proposed to reduce the manufacturing cost by automatically pulling out the work by a winch using a timer, and at the same time promote the convenience of work, and to propose a semi-automatic seed hot water sterilizer that can also be used as a rice seed germination machine.

In addition, the Korean Utility Model Registration No. 20-0449039, the designation "Rice Seed and Seed Germination" relates to rice seeds and seed germination, and includes an air pump for supplying air to two buckets containing rice seeds and seeds, and two It includes a thermostat for heating the water stored in each of the buckets and measuring the temperature of the heated water; The air pump, a drive shaft reciprocating in the left and right directions by a transformer wound with a coil, a pair of pumps generating air by being connected to the drive shaft and driven, and an air hose connected to the discharge ports of the pair of pumps, respectively It is proposed to include an air injector which is connected to and installed in each of the water bottles.

However, many of the above-mentioned prior arts mainly describe the technology for temperature control of water in detail, but the description and technology for oxygen supply and humidity management essential for germination were insufficient.

"Seed germination" of Korean Patent Registration No. 10-0444186. Korean Patent Registration No. 10-1427374, "Seed Hot Water Sterilizer Combined with Rice Seed Germination". Korean Utility Model Registration No. 20-0449039 The name of the design "Rice seed and seed germination".

The present invention was invented in order to satisfy the conventional shortage technology, the purpose of which is to sow various seed crops, such as rice, soybeans, including corn, sowing the sprouts to increase germination survival rate before sowing on the cultivated land. By optimizing the conditions of moisture, temperature, and oxygen required for the seed germination, 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 healthy germination seeds. Is in

The object solving means configuration of the present invention for achieving the above object is,

A cylindrical body 100 having an open top portion formed by forming a water receiving portion 110 in a yaw shape in which water is collected in a central portion of the bottom surface;

It is located on the water receiving portion, the center of the yaw (210) type humidification generating unit 210 is formed, the upper surface of the cover 200 by drilling a plurality of holes 220;

A part of the lower end of the humidification generating part is erected vertically, a plurality of humidification ejection holes 320 are formed in the body 310, and a cylindrical distribution tube 300 is formed by opening the upper and lower ends;

A shelf 400 in which a through hole 410 through which the distribution pipe penetrates is formed at the center to be placed on the upper portion of the cover and a drainage channel 420 is formed on the upper surface;

A heating means 500 installed in the water receiving portion to heat the water in the water receiving portion to a target temperature, and one end connected to the control unit C installed in the main body;

An oxygen supply unit (600) located in the humidification generating unit and supplying oxygen through a hose (620) to supply oxygen to the oxygen supply port (600);

A water level sensor 700 installed to be connected to the control unit at a lower side of the body to sense the water level inside the body;

A lid 800 provided to open and close the opened upper portion of the main body as necessary; It consists of a configuration comprising a.

The grain germination apparatus of the present invention having the above-described configuration, as described in the above object, sowing various grain seeds, such as corn, rice, soybeans, sowing the sprouts to increase germination survival rate before sowing on the arable land, At this time, by optimizing the conditions of moisture, temperature, and oxygen necessary for the seed germination, a large amount of grain seeds can be germinated at one time, the germination rate is increased, and there is an effect of inducing 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,
Figure 3 is an exploded perspective view of the grain germination device of the present invention,
Figure 4 is a cross-sectional view of the grain germination device of the present invention,
5a and 5b is an excerpt perspective view showing an embodiment of the distribution tube in the grain germination apparatus of the present invention,
Figures 6a and 6b is an excerpt perspective view for explaining the upper and lower surfaces of the shelf in the grain germination apparatus of the present invention,
Figure 7 is a cross-sectional view for explaining the water level in the state called the grain in the grain germination apparatus of the present invention,
Figure 8 is a cross-sectional view for explaining the water level when germinating the grain in the grain germination apparatus of the present invention.

The present invention relates to a grain germination device that allows the seeds to be planted by floating the shoots to increase the germination survival rate before sowing various grains such as rice, soybeans, and so on, including corn, as described below with reference to the accompanying drawings. .

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The grain germination device of the present invention, as shown in Figures 1 to 4, the upper body is formed by forming a water receiving portion 110 in the form of a yaw (凹) in which water is collected in the center of the bottom surface of the cylindrical body (opened) 100); It is located on the water receiving portion, the center of the yaw (210) type humidification generating unit 210 is formed, the upper surface of the cover 200 by drilling a plurality of holes 220; A part of the lower end of the humidification generating part is erected vertically, a plurality of humidification ejection holes 320 are formed in the body 310, and a cylindrical distribution tube 300 is formed by opening the upper and lower ends; A shelf 400 in which a through hole 410 through which the distribution pipe penetrates is formed at the center to be placed on the upper portion of the cover and a drainage channel 420 is formed on the upper surface; A heating means 500 installed in the water receiving portion to heat the water in the water receiving portion to a target temperature, and one end connected to the control unit C installed in the main body; An oxygen supply unit (600) located in the humidification generating unit and supplying oxygen through a hose (620) to supply oxygen to the oxygen supply port (600); A water level sensor 700 installed to be connected to the control unit at a lower side of the body to sense the water level inside the body; A lid 800 provided to open and close the opened upper portion of the main body as necessary; It consists of a configuration comprising a.

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

An embodiment of the main body 100 of the above configuration, the outer end of the water receiving unit 110, the water flow path 120 to the inner wall of the main body 100 is required to be maintained at regular intervals (凹) a plurality of forms, the water flow path 120 is formed toward the water receiving portion 110 from the inner wall side of the body 100, such water receiving portion 110 is from the inner wall side of the body 100 It may be used to form a downward slope toward the water receiving unit 110.

And in one place of the water flow path 110 is used to form a drain 140 for draining the water inside the body 100 to the outside.

However, the water flow path 120 may be used to form a plane without forming a downward slope from the inner wall side of the main body 100 toward the water receiving portion 110.

In the above embodiment configuration, the water flow path 120 is such that when the water inside the main body 100 is drained through the drain 140, the water inside the main body 100 is collected in the water receiving portion 110. It is formed in a yaw form, and the reason that the water flow path 120 is formed to have a downward slope toward the water accommodating part 110 is that water from the inner wall side of the main body 100 toward the water accommodating part 110 is formed. This is to make the progress quickly and easily.

In addition, the water level inside the main body 100 can be selectively adjusted by installing a drain 140 for draining the water inside the main body 100 to outside the water flow path 120.

When germinating grain seeds using the device of the present invention, first, the inside of the main body 100 is filled with water, so that all of the grain seeds to be germinated are immersed in water, and then sufficiently soaked. ) To induce germination by draining the filled water of the body 100 to the extent that the germination target grain seeds are not immersed.

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

The cylindrical body 100 in which the upper portion is opened may be used in a cylindrical shape or a quadrangular or more polygonal shape. Preferably, the cylindrical shape is good, and the reason for opening the upper portion is water in the inner periphery of the body 100. This is to facilitate adding or withdrawing grains to be filled or germinated.

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

The cover 200 of the present invention is located on the water receiving portion 110, as shown in FIGS. 2 and 3, and a humidification generating portion 210 in the form of a yaw is formed in the center, and on the upper surface A plurality of holes 220 are made by perforating, and the cover 200 supports and supports the lower surface of the shelf 400 described below, while stably supporting the lower portion of the distribution pipe 300. It plays a role of standing and fixing.

As shown in FIG. 4, in the humidification generating unit 210, a hole 240 communicating with the water receiving unit 110 is perforated so that water received in the water receiving unit 110 through the hole 240 is humidified. The generation unit 210 is also accommodated.

One embodiment configuration of the cover 200 as described above, the surface of the cover 200, the protrusion band 230 extending from the outer peripheral edge of the humidification generating unit 210 to the outer peripheral edge of the lid 200 at regular intervals It is formed of, the hole 220 is formed between the protrusion band 230.

The reason for forming the protruding band 230 on the upper surface of the cover 200, the role of the ribs to maintain the rigidity of the cover 200, and at the same time, the lower portion of the distribution pipe 300 described below is not flowed and is rigid It plays a role of being fixed.

In addition, the reason for forming the hole 220 is to allow the water generated in the upper portion of the cover 200 to be drained into the water receiving portion 110.

And the upper surface of the cover 200 is formed to be positioned higher than the upper surface of the water flow path 120, when the shelf 400 described below is placed, the lower surface of the shelf 400 and water flow It was made to be spaced between the upper surfaces of the furnace 120 so that when the seeds of the grain to be germinated germinate, the bottom of the seeds of the germinated grain was not immersed in water.

The distribution pipe 300 of the present invention, the lower portion of the humidification generating part 210 is inserted and erected vertically, a plurality of humidification ejection holes 320 are formed in the body 310, and the upper / lower ends are opened. When the hot water, which is formed of a cylindrical shape and dissolves oxygen in the humidification generating unit 210 and ejects it as a mist, distributes the sprayed mist evenly inside the main body 100 to the seeds of the germination target grains loaded on the shelf 400. It is to increase germination efficiency by supplying oxygen and temperature evenly with moisture.

The configuration of one embodiment of the distribution pipe 300 as described above, the flange portion 330 is formed along the outer circumferential edge of the distribution pipe 300, as shown in Figure 5a, the distribution pipe 300, The outer circumferential edge of the flange portion 330 is formed by forming a coupling groove 340 at regular intervals. The reason for forming the flange portion 330 is that the distribution pipe 300 is in close contact with the upper surface of the cover 200. ) Is to be stably fixed without flowing, and the reason for forming the coupling groove 340 in the outer circumferential edge of the flange portion 330 is that the coupling groove 340 is a protruding band of the cover 200 It is to be coupled to the 230 to be able to stably support the distribution pipe 300.

The distribution tube 300 as described above can be used to form a cylinder or a polygon of four or more squares, but preferably has a good cylindrical shape, open the upper and lower ends and form a plurality of humidification jet holes 320 in the body 310. The reason is, while the hot water mist from which the oxygen is dissolved and ejected from the humidification generating unit 210 proceeds upward through the opened lower portion, it is ejected through the humidifying ejection hole 320 and the upper opening portion and evenly distributed inside the main body 100. To be distributed.

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

The humidifying spray tube 360 is formed so that the spray holes are downward in a plurality of places along the longitudinal direction, so that the humidity, oxygen and temperature of the entire body 100 can be evenly distributed, and the upper part of the cap 350 is also provided. Holes can be drilled to allow humidification to erupt.

The shelf 400 of the present invention, as shown in Figures 6a to 6b, loads seeds of the grain to be germinated and induces germination. When loading the grains to be germinated, the net in the form of a mesh in which the grain to be germinated does not come out It is desirable to put it in the loading 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 upper portion of the cover 200 and forming a drainage channel 420 on the upper surface. Is 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 forming the drainage channel 420 is moisture from the grain loaded on the shelf. This is to allow the drained moisture to flow along the drainage channel 420 and drain through the through hole 410 when it is drained.

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

In the drainage channel 420, the drainage channels from the outer circumferential edge of the through hole 410 to the outer circumferential edge of the shelf 400 are continuously repeated, and the handles 430 are provided on both sides of the surface of the shelf 400. ) Is installed, and a reinforcing rib 440 is formed on the rear surface of the shelf 400 to maintain the rigidity of the shelf as shown in FIG. 6B.

The handle 430 is intended to facilitate the movement when the shelf 400 is moved, and at the same time to facilitate the operation when the shelf is inserted into 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 for heating the water in the water receiving unit 110 using the heating means 500 varies depending on the grain to be germinated, but in the case of corn and rice, 30-35 ° C is preferable.

The heating means 500 serves as a heater rod, which functions to heat when the water temperature of the water receiving unit 110 is lower than the target temperature and stop heating when the target temperature exceeds the target temperature, which is controlled by the control unit C.

The oxygen supply means 600 of the present invention is to supply oxygen through the hose 620 to the oxygen air supply 610 and the oxygen supply port 610 to supply oxygen to the humidification generating unit 210, the 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 generation unit 210, and air bubbles are added to the water contained in the humidification generation unit 210. Oxygen is generated and oxygen is dissolved to distribute moisture and oxygen into the body 100 through the distribution pipe 300 in the form of mist to supply moisture and oxygen evenly to the seeds of the germination target grains loaded on the shelf 100. Will be.

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

The water level sensor 700 of the present invention is installed to be connected to the control unit C on the lower side of the body 100 to detect the water level inside the body 100, as shown in FIG. 2, the shelf When the grain loaded in the 400 is sufficiently soaked, germination takes place only when proper moisture, oxygen and temperature are maintained without being immersed in water, and when the grain germinates, the water level inside the body 100 is shelf Located at the bottom of the 400, the grains loaded on the shelf 400 should not be immersed in water.

Therefore, the water level sensor 700 of the present invention is installed inside the lower portion of the main body 100, such an embodiment configuration of the water level sensor 700, the upper water level sensor 710 and the lower water level detection It consists of a sensor 720, the upper water level sensor 710 is installed so as not to exceed the upper surface line of the cover 200, the lower water level sensor 720 is the water flow path 120 of the It is installed to detect the top line.

The reason is that when the grain germinates, if the water exceeds the upper surface line of the cover 200 as shown in FIG. 8, the lower part of the seed of the grain loaded on the shelf 400 is immersed in water, and the A problem that the grain seeds may not germinate may occur, and when the water maintains the top line 110 of the water flow path 120, the amount of water is too small, and heating is performed when water is heated using the heating means 500 This is because a problem that cannot be effectively performed may occur.

The lid 800 of the present invention is to allow the open top of the main body 100 to be opened and closed as necessary, and when the germination target grains loaded on the shelf 400 germinate, the lid 800 is covered. Protect moisture, oxygen, and temperature, and when germination is complete or when germination is not performed, the lid 800 may be left open.

In addition, in the lower portion of the shelf 400 of the present invention, while supporting and supporting the lower portion of the shelf 400, the height adjustment means 900 for adjusting the installation height of the shelf 400 is installed to provide the cover 200 and the shelf ( It was made possible to adjust the separation distance of 400).

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 received under the main body 100 when germination target grains germinate.

One 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 ejection hole 320 of the distribution pipe 300 as shown in FIG. 9. Earth 910 is installed to be disassembled and coupled from the humidification jet hole 320, the upper surface of the cover 200 is made of a support 920 to support and support the lower surface of the shelf 400 is installed .

The support 920 is preferably to support and support the lower surface of the shelf 400 in a plurality of places. The reason for this is because the shelf 400 is loaded with the grain to be germinated, so it must bear the load of the grain to be germinated.

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

In this state, when the heating means 500 is operated to heat the water to a target temperature, and the oxygen supply means 600 is operated to supply oxygen, bubbles are generated by the oxygen supply in the humidification generating unit 210 and stirred. At the same time, while the oxygen-dissolved water is vaporized in the form of mist, it is evenly distributed into the body 100 through the distribution pipe 300 and evenly distributed in the germination target grains loaded on the shelf 400 to promote germination. 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 germination target grain loaded on the shelf 400 also maintains a temperature suitable for germination. .

The present invention as described above, as described in the above effect, the moisture, temperature, required to germinate when the seeds are sprouted in order to increase the germination survival rate before sowing various grain seeds, such as rice, soybeans, including corn, to the cropland, By optimizing the conditions of oxygen, it is possible to germinate a large amount of grain seeds at once, increase germination rates, and have the advantage of inducing healthy germination seeds.

100: body 110: water receiving portion
120: water flow path 130: stepped
140: drain 200: cover
210: humidification generating unit 220: hole
230: protruding band 300: distribution tube
310: body 320: humidification jet hole
330: flange portion 340: engaging groove
350: cap 360: humidification spray tube
400: shelf 410: through hole
420: drainage 430: handle
440: Reinforcement rib 500: Heating means
600: oxygen supply means 610: oxygen air tools
620: hose 630: pedestal
700: water level sensor 710: upper water level sensor
720: lower water level sensor 800: lid
900: height adjustment means 910: support
920: Base C: Control

Claims (11)

A cylindrical body 100 having an open top portion formed by forming a water receiving portion 110 in a yaw shape in which water is collected in a central portion of the bottom surface;
It is located on the water receiving portion, the center of the yaw (210) type humidification generating unit 210 is formed, the upper surface of the cover 200 by drilling a plurality of holes 220;
A part of the lower end of the humidification generating part is erected vertically, a plurality of humidification ejection holes 320 are formed in the body 310, and a cylindrical distribution pipe 300 is formed by opening the upper and lower ends;
A shelf 400 in which a through hole 410 through which the distribution pipe penetrates is formed at the center to be placed on the upper portion of the cover and a drainage channel 420 is formed on the upper surface;
A heating means 500 installed in the water receiving portion to heat the water in the water receiving portion to a target temperature, and one end connected to the control unit C installed in the main body;
An oxygen supply unit (600) located in the humidification generating unit and supplying oxygen through a hose (620) to supply oxygen to the oxygen supply port (600);
A water level sensor 700 installed to be connected to the control unit at a lower side of the body to sense the water level inside the body;
A lid 800 provided to open and close the opened upper portion of the main body as necessary; Grain germination device, characterized in that the configuration comprising a. According to claim 1,
At the outer end of the water receiving portion 110, a water flow path 120 reaching the inner wall of the main body is formed in a concave shape so as to be maintained at a predetermined interval, and the water flow path from the inner wall side of the main body toward the water receiving portion It is formed to have a downward slope, and in one place of the water flow path, a grain germination device characterized in that a drain 140 is formed to drain water inside the body to the outside. According to claim 2,
Grain germination device, characterized in that by forming a drain 140 for draining the water inside the body to the outside in any one of the water flow path (120). The method according to claim 1 or 2,
A grain germination device, characterized in that a stepped surface (130) on which the cover is mounted and supported is formed at an end of the water flow path (120) toward the water receiving portion. According to claim 1,
On the surface of the cover 200, a protrusion band 230 extending from an outer peripheral edge of the humidification generating unit to an outer peripheral edge of the lid is formed at regular intervals, and the hole 220 is formed between the protrusion belts. Grain germination device. According to claim 1,
In the lower portion of the distribution pipe 300, the flange portion 330 is formed along the outer peripheral edge of the distribution pipe, the outer peripheral edge of the flange portion is formed by forming a coupling groove 340 at regular intervals Germination device. According to claim 1,
The top of the distribution pipe 300, a grain germination apparatus characterized in that the cap 350 is installed a plurality of humidifying spray pipe 360 is installed to be separated from the upper end of the distribution pipe. According to claim 1,
In the drainage channel 420, a drainage channel from the outer circumferential edge of the through hole to the outer circumferential edge of the shelf is continuously repeated, and the handles 430 are installed on both sides of the shelf surface, and reinforcing ribs are provided on the back surface of the shelf. 440) characterized in that the grain germination device. According to claim 1,
A plurality of the oxygen air tools 610, the oxygen supply means 600, the grain germination device characterized in that fixed to the support 630 provided on the upper portion of the control unit (C) installed on the main body.
According to claim 1,
The water level sensor 700, which detects the water level of the water contained in the body, is composed of an upper water level sensor 710 and a lower water level sensor 720, the upper water level sensor is the cover It is installed to detect the upper surface of the line, the lower water level sensor is installed to detect the upper line of the water flow grain germination device. According to claim 1,
Grain germination device, characterized in that installed in the lower portion of the shelf 400, height adjustment means (900) for controlling the height of the installation of the shelf while supporting and supporting the lower portion of the shelf.

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