KR102108058B1 - Grain germ drying equipment - Google Patents

Abstract

The present invention relates to a device for drying grain germs provided with a drying means. Carbon heating rods are installed at equal intervals on the outer circumferential surface of an outer container constituting a housing, and on the upper end of the outer container, an air inlet and an air outlet through which external air circulates are formed to dry germinated grains while external air is injected. Therefore, the present invention can not only significantly reduce the drying time of the grains, but also dry the grains that have germinated in a natural state due to air supplied from the outside.

Description

Grain germ drying equipment with drying means {Grain germ drying equipment}

The present invention relates to a grain germination drying apparatus equipped with a drying means, and more specifically, a carbon heating rod is installed at equal intervals on the outer circumferential surface of the outer cylinder constituting the housing, and external air circulates on the upper end of the outer cylinder. By forming the air inlet and the air outlet, the grain that has been germinated is dried as external air is injected, so that the drying time of the grain can be significantly reduced, and the grain that has germinated in a natural state due to the air supplied from the outside It relates to a grain germination drying apparatus equipped with a drying means for drying.

In general, germination is performed by supplying temperature and moisture to grains, and the germinated grains are processed again to prepare malt foods such as malt, liquor, and red pepper paste.

At this time, it is revealed that the grain is made of barley, wheat, sorghum, and rice.

In the related art, since the grains are germinated in a jar or the like, and then, the germinated grains are taken out of the jars and dried using sunlight or the like, drying is not easy, and a drying time is increased.

In order to solve this problem, a drying device capable of drying grains after germination has been invented.

However, the conventional drying apparatus is composed of a tank made of a grass-like shape into which the grain is input, and a hot air supply unit that supplies hot air to dry the grain input therein.

Therefore, the grains are dried by using heat supplied from the hot air supply unit to the grains that have germinated inside the housing.

However, the problem of the grain germination drying apparatus equipped with the conventional drying means is to dry the grain that has been germinated by supplying the heat supplied from the hot air supply to the interior of the housing. The problem was that grains far away from the feeder could not be dried.

In addition, since the grain is dried by supplying heat through a hot air supply while the housing is open, a problem in that the drying time of the grain is increased.

◆ Prior art literature ◆

Korean Registered Patent No. 10-1146434

Korean Utility Model No. 20-0244219

Korean Registered Patent No. 10-0329012

Korea Registered Utility Model No. 20-0244219

Therefore, the present invention for solving the above problem is provided with a stirring means consisting of a first stirring blade and a second stirring blade rotating in opposite directions inside the housing made of the outer cylinder and the lid, and the carbon heating rod on the outer circumferential surface of the housing When the grain germinated by the carbon heating rod is dried, the air inlet and the air outlet through which external air is injected and circulated are installed in the housing, so that the grain germinated by the stirring means is stirred while carbon Not only can the drying time be drastically reduced because it is dried by a heating rod, but also because the air is circulated through the air inlet and air outlet, it can be expected to dry, and the effect of drying the grain in the natural state can be expected. It is an object of the present invention to provide a grain germination drying apparatus equipped with a drying means so as to significantly reduce the drying time by further comprising a warm cooling means equipped with a pel tire element that generates or absorbs heat depending on the polarity of electricity supplied.

The present invention for achieving the above object,

A housing made of a cylindrical outer cylinder provided with an opening end into which grain is introduced, and a lid blocking an opening end of the outer cylinder;

A stirring means rotatably installed inside the housing to stir the input grains;

A carbon heating rod installed at equal intervals on the outer circumferential surface of the outer cylinder to dry the germinated grain;

An air inlet formed at an upper portion of the outer cylinder to supply external air to the grain dried by the carbon heating rod;

An air outlet formed in the outer cylinder such that air introduced into the outer cylinder through the air inlet is circulated and discharged to the outside;

A control unit for turning on / off the stirring means and the carbon heating rod;

It is characterized in that it comprises a; heating and cooling means provided with a pel tire element is installed on the outer circumferential surface of the outer cylinder so as to heat or absorb heat according to the polarity of the power supplied from the control unit.

According to the present invention, a carbon heating rod is installed on the outer circumferential surface of the housing, and a stirring means is installed inside the housing to stir the germinated grain while drying using a carbon heating rod to significantly reduce the drying time of the grain. In addition, it is possible to expect an effect that can prevent the grain from drying partially inside the housing.

In addition, an air inlet and an air outlet are formed at the top of the housing so that the outside is introduced into the dried grain, and thus an effect of drying the grain in an environment similar to the natural environment can be expected.

In addition, the heating / cooling means equipped with a pel tire element that generates or absorbs heat according to the polarity of the electricity is further installed on the outer circumferential surface of the housing to simultaneously dry the grain using the heat supplied from the warming means and the heat supplied from the carbon heating rod. It can be expected to reduce the drying time significantly.

1 and 2 are perspective views of a grain germination drying apparatus equipped with a drying means of the present invention.
Figure 3 is a cross-sectional view showing a state in which the carbon heating rod of the present invention is installed.
Figure 4 is a cross-sectional view showing a state in which the warming means of the present invention is installed.
Figure 5 is a partially enlarged cross-sectional view showing a warming means of the present invention.
Figure 6 is an exploded perspective view showing a state in which the stirring means of the present invention is installed.
7 and 8 are cross-sectional views showing the operating state of the stirring means of the present invention.
9 is a view showing a stirring vane of the present invention.
Figure 10 is a cross-sectional view showing a state in which the grain is moved by the stirring blade of the present invention.
11 is a cross-sectional view showing a state in which the auxiliary stirrer of the present invention is installed on the first rotating shaft.

Hereinafter, preferred embodiments of the present invention will be described with reference to FIGS. 1 to 11 as follows.

According to the above drawings, the present invention,

A housing 1 composed of a cylindrical outer cylinder 10 provided with an opening end 11 into which grain is introduced, and a lid 20 blocking the opening end 11 of the outer cylinder 10;

A stirring means (100) installed to be rotated inside the housing (1) so as to stir the input grain;

A carbon heating rod 400 installed at equal intervals on the outer circumferential surface of the outer cylinder 10 to dry the germinated grains;

An air inlet 410 formed on the top of the outer cylinder 10 so as to supply external air to grains dried by the carbon heating rod 400;

An air outlet 411 formed in the outer cylinder 10 such that the air introduced into the outer cylinder 10 through the air inlet 410 is circulated and discharged to the outside;

A control unit 600 for turning on / off the stirring means 100 and the carbon heating rod 400;

It is characterized in that it comprises a; a cooling / cooling means (500) provided with a pel tire element (512) installed on the outer circumferential surface of the outer cylinder (10) so as to heat or absorb heat according to the polarity of the power supplied from the control unit (600).

The stirring means 100 includes a plurality of first stirring blades 113 installed inside the outer cylinder 10;

It consists of a second stirring blade (123) installed on one surface of the lid 20,

The first stirring wing 113,

A first rotational shaft 111 that is penetrated through one surface of the outer cylinder 10 and rotated by receiving the rotational force of the first motor 110 rotated forward and backward;

A first rotating plate 112 coupled to one end of the first rotating shaft 111; configured to rotate by being coupled to one surface of the first rotating plate 112,

The second stirring wing 1230,

A second rotational shaft 121 that passes through the lid 20 and receives rotational force of the second motor 120 rotated forward and backward, and rotates in a direction opposite to the direction in which the first rotational shaft 111 rotates;

The second rotating plate 122 is coupled to be penetrated to one end of the second rotating shaft 121; configured to be coupled to the first stirring blade 113 and the second stirring blade 123 is rotated in the opposite direction to the grain germinated It is characterized by being configured to prevent tangling.

The first rotating shaft 111 is provided with a rotating plate moving means 130 to prevent the grains from being tangled by moving the first stirring blade 113 forward and backward.

The rotating plate moving means 130 includes a moving groove 140 formed in the longitudinal direction on the first rotating shaft 111;

A moving hole 141 formed at upper and lower ends of the first rotating shaft 111 in communication with the moving groove 140;

A cylinder rod 151 is provided along the moving groove 140, the cylinder 150 is coupled to the other end of the first rotary shaft 111;

Consists of a coupling portion 152 that is withdrawn from the moving hole 141 and coupled to the end of the cylinder rod 151 to be coupled to the other surface of the first rotating plate 112,

At the end of the first rotating shaft 111, an auxiliary stirrer 160 consisting of a rotating part 170 and a plurality of rotating blades 171 is installed and configured by using a power transmission means 180, and the intermediate portion of the grain to be stirred is once again. Configured to prevent tangle by rotating,

The power transmission means 180 is provided with a plurality of fixing grooves 191 along the outer circumferential surface, and a power connection unit 190 that is built up on the outer circumferential surface of the first rotating shaft 111;

A mounting groove 200 in which the power connection unit 190 is installed is provided, and a rotating unit 170 having a rotary blade 171 formed on one surface;

An installation groove 210 formed on an inner surface of the rotating part 170 in communication with the mounting groove 200;

It is coupled with a hinge to the installation groove 210, is configured to be coupled to the fixing groove 191 by the elastic force of the spring 221, the detent 220 to transmit the rotational force of the first rotation shaft 111 to the auxiliary stirrer 160 ; It is characterized in that the first rotating shaft 111 is configured to prevent the auxiliary stirrer 160 from rotating when rotated in the reverse direction.

The housing (1) is further provided with a water supply means for supplying the moisture required when the grain germinates,

The water supply means includes a hot water supply port 320 formed on the rear surface of the outer cylinder 10;

A hot water outlet 330 formed under the outer cylinder 10;

Consists of a constant temperature water supply 310 that is installed spaced apart from the drum (1) to supply the hot water supply port 320, the hot water,

When the constant temperature water is discharged through the hot water outlet 330, the inner cylinder 300 is provided with a plurality of perforated holes 301 to prevent the grains introduced into the outer cylinder 10 from flowing out simultaneously with the constant temperature water. Characterized in that it is configured to be coupled to one surface of the rotating plate (112).

The warm / cooling means 500 includes a warm / cooling housing 510 installed at equal intervals on the outer circumferential surface of the outer cylinder 10;

The housing 1 is provided with a contact surface 511 which is in contact with the outer circumferential surface, and a peltie element 512 installed inside the warm and cold housing 510;

A button unit 514 installed to be connected to the control unit 600 to change the polarity of electricity supplied to the peltai element 512 by the control signal of the control unit 600;

It characterized in that it comprises a; heat-radiating fan 513 is installed in the warm cooling housing 510 to cool the Peltai element (512).

The present invention is to make it possible to significantly reduce the drying time of the grain because it is dried using the heat supplied from the carbon heating rod 400 while stirring the germinated grain.

In addition, when the germinated grains are dried using the heat supplied from the carbon heating rod 400, air is introduced and circulated to dry, so that the effect of drying the germinated grains in a natural state can be expected. Did.

When explaining the operating state of the present invention configured as described above is as follows.

First, as shown in FIG. 1, the lid 20 constituting the housing 1 is opened, and then grain is introduced into the outer cylinder 10 provided in the inner cylinder 300, and then the lid 20 is closed to the outer cylinder 10. The provided opening end 11 is closed.

A sealing portion 21 made of silicone is formed on one surface of the lid 20 to seal the opening end 11 of the outer cylinder 10.

When the opening end of the outer cylinder 10 is closed, the control unit 600 sends a control signal to the constant temperature water supply unit 310 constituting the constant temperature water supply means to transmit the control signal to the outer cylinder 10 through the constant temperature water supply port 320. Supply constant temperature water inside.

At this time, the constant temperature water is supplied enough to immerse the grain input into the interior of the housing 1, and the water level of the constant temperature water is sensed by a water level sensor (not shown) installed inside the housing 1 to the control unit 600. This is the supply box.

When the constant temperature water flows enough to immerse the grain, the controller 600 sends a control signal to the constant temperature water supply 310 to turn it off.

At the same time as the constant temperature water supply 310 and the off, the control unit 600 sends a control signal to the first motor 110 and the second motor 120 constituting the stirring means 100, and the first stirring wing 113 ) Is rotated clockwise as shown in FIG. 3, and the second stirring blade 123 is rotated counterclockwise to stir the grain.

That is, as shown in (a) of FIG. 10, the first stirring blade 113 rotated by receiving the rotational force of the first motor 110 is rotated clockwise while the grains introduced into the outer cylinder 10 are turned leftwards on the drawing. While stirring, and receiving the rotational force of the second motor 120, the second stator blade 123 is rotated counterclockwise to push and agitate the grain in the right direction on the drawing.

At this time, the first stirring wing 113 is formed to be inclined in the outer direction as shown in Fig. 9 (a) toward the opening end 11 of the outer cylinder 10, the second stirring wing 123 is the outer cylinder 10 It is formed to be inclined in the inner direction as shown in Figure 9 (b) toward the rear end of.

And it is revealed that the first motor 110 and the second motor 120 are respectively installed in the frame 2 coupled to the housing 1.

When the first stirring blade 122 and the second stirring blade 123 agitate the grain, the control unit 600 sends a control signal to the cylinder 150 as shown in FIGS. 7 and 8, so that the cylinder rod 151 is The first rotation shaft 111 is provided with a movement groove 141 provided in the inside and out.

As the cylinder rod 151 is turned on and off, the engaging portion 152 coupled with the first rotating plate 112 is moved in the left and right directions along the moving hole 141 in communication with the moving groove 141. While the first stirring blade 113 is moved forward and backward in the interior of the outer cylinder 10, the grains introduced into the outer cylinder 10 are stirred.

At this time, the inside of the opening end 11 of the outer cylinder 10 forms a guide 302 with a perforated hole 303, so even if the inner cylinder 300 is moved back and forth in the interior of the housing 1, the grains are It is possible to prevent the outflow of the outer cylinder 10 through the inner cylinder 300.

The diameter of the perforated hole 301 provided in the inner cylinder 300 and the perforated hole 303 provided in the guide 302 is formed to 2 mm to prevent the grains from flowing out.

Meanwhile, the rotating blade 171 of the auxiliary stirrer 160 coupled by the power transmission means 180 is rotated at the end of the first rotating shaft 111, and the grain located in the central portion of the outer cylinder 10 is stirred once again. do.

That is, when the first stirring blade 113 is rotated to agitate the grain, the detent 220 of the power transmission means 180 rotates down about the hinge, and the fixed surface constituting the fixing groove 191 ( 192) while being in close contact with the rotational force of the first rotating shaft 111 to the rotating part 170 so that the rotating blades 171 are rotated, thereby stirring the grain in the center of the housing 1 once again.

 In the present invention, the stirring blade, the rotating plate moving means 130 for advancing and reversing the stirring blade, and the auxiliary stirrer 160 have been separately described, but at the same time as the rotation of the stirrer, the rotating plate moving means 130 and the auxiliary stirrer 160 ) Is working at the same time.

As described above, while stirring grains using the stirring blade and the auxiliary stirrer 160, the controller 600 sends control signals to the constant temperature water supply unit 310 and the opening / closing unit 340 so that the constant temperature water introduced into the housing 1 To the outside.

To discharge the constant temperature water, the control unit 600 sends a control signal to the opening / closing unit 340 to rotate the on / off valve 341 blocking the constant temperature water outlet 330 to discharge the constant temperature water through the constant temperature water outlet 330 As much as possible.

At this time, the constant temperature water is discharged so that only half of the grain is not immersed in the outer cylinder 10.

In this way, the constant temperature water is introduced and discharged six times so that the grain is immersed and semi-immersed so that the grain introduced into the housing 10 germinates.

Heat is generated while the grain germinates inside the outer cylinder 10 to increase the inner temperature of the outer cylinder 10. The temperature sensor 350 installed inside the outer cylinder 10 is the inner temperature of the outer cylinder 10. Detects and sends a temperature detection signal to the control unit 600.

When the internal temperature of the outer cylinder 10 rises above a set temperature (8 ° C to 23 ° C) according to the detection signal introduced from the temperature sensor 350, the controller 600 controls the heating / cooling means ( 500) to send a control signal so that power is supplied.

As the power is supplied to the warming and cooling means 500, the peltai element 512 provided with the contact surface 511 absorbs heat inside the outer cylinder to radiate heat to the outside.

Therefore, the inner temperature of the outer cylinder 10 is to germinate the grains introduced into the outer cylinder 10 while maintaining (8 ° C to 23 ° C).

At this time, a heat dissipation fan 513 is installed and installed in the warm / cooling housing 510 in which the pel tie element 512 is installed, so that the pel tie element 512 can be dissipated.

And it is revealed that the germination state of the grain can be visually confirmed through the see-through window 12 provided in the outer cylinder 10.

When the grains germinate, the control unit 600 sends a control signal to the opening / closing unit 340 blocking the constant temperature water outlet 330 to rotate the opening / closing valve 341 to completely remove the constant temperature water in the outer cylinder 10. Discharge.

At the same time as the constant temperature water is discharged, the first stirring wing 113 receives the rotational force of the first motor 110 and is rotated counterclockwise as shown in FIG. 4, and the second stirring wing 123 is the second motor 120 While receiving the rotational force of the rotating clockwise to dehydrate the grain contained in the inner barrel 300.

At this time, since the detent 220 constituting the power connection 190 is not in close contact with the fixed surface 192 as shown in FIG. 11 (b) along the inclined surface 193 of the fixed groove 191, the auxiliary stirrer ( 160) does not rotate.

When the constant temperature water introduced into the outer cylinder 10 is completely discharged through the constant temperature water outlet 330, the control unit 600 sends a control signal to the carbon heating rod 400 to generate heat.

The first stirring wing 113 and the second stirring wing 123 constituting the stirring means 100 are continuously rotated.

The carbon heating rod 400 generates heat to the inside of the outer cylinder 10, and at the same time, the worker turns on the button portion 514 constituting the warming and cooling means 500 to supply power to the Peltier element 512. Let the polarity change.

The Peltier element 512 causes the Peltier element 512 to dry the grain while introducing heat into the inside of the outer cylinder 10 through the contact surface 511 by the polarity of the changed power source.

At this time, it is revealed that the felt tie element 512 is composed of two pieces.

The grains germinated by the carbon heating rod 400 and the warming and cooling means 500 are dried, and at the same time, external air is injected through the air inlet 410 provided in the outer cylinder 10, and the injected air is It is discharged to the outside through the air outlet 411 while being circulated inside the outer cylinder 10 by the rotating stirring means 100.

Therefore, not only can the drying time of the grain dried in the interior of the housing 1 be significantly reduced, but it is also possible to dry the grain in a natural state due to the air circulated inside the housing 1.

1: housing, 2: frame,
10: outer cylinder, 11: open end,
12: viewing window, 20: lid,
21: sealing portion, 100: stirring means,
110,120: first and second motors, 111,121: first and second rotation shafts,
112,122: first and second rotating plate, 113,123: first and second stirring blades,
130: rotating plate moving means, 140: moving groove,
141: moving hole, 150: cylinder,
151: cylinder rod, 152: engaging portion,
160: auxiliary stirrer, 170: rotating part,
171: rotary blade, 180: power transmission means,
190: power connection, 191: fixed groove,
192: slope, 200: mounting groove,
210: mounting groove, 220: detent,
221: spring, 300: inner cylinder,
301: perforated hole, 310: constant temperature water supply,
320: constant temperature water supply port, 330: constant temperature water discharge port,
340: opening and closing part, 341: opening and closing valve,
350: temperature sensor, 400: carbon heating rod,
410: air inlet, 411: air outlet,
500: warm cooling means, 510: warm cooling housing,
511: contact surface, 512: Felt element,
513: heat dissipation fan, 514: button unit,
600: control unit,

Claims (5)

A housing 1 composed of a cylindrical outer cylinder 10 provided with an opening end 11 into which grain is introduced, and a lid 20 blocking the opening end 11 of the outer cylinder 10;
A stirring means (100) installed to be rotated inside the housing (1) so as to stir the input grain;
A carbon heating rod 400 installed at equal intervals on the outer circumferential surface of the outer cylinder 10 to dry the germinated grains;
An air inlet 410 formed on the top of the outer cylinder 10 so as to supply external air to grains dried by the carbon heating rod 400;
An air outlet 411 formed in the outer cylinder 10 such that the air introduced into the outer cylinder 10 through the air inlet 410 is circulated and discharged to the outside;
A control unit 600 for turning on / off the stirring means 100 and the carbon heating rod 400;
Drying characterized by consisting of; a cooling / cooling means (500) provided with a pel tire element (512) installed on the outer circumferential surface of the outer cylinder (10) so as to heat or absorb heat according to the polarity of the power supplied from the control unit (600). Grain germination drying equipment equipped with means.
The method according to claim 1, wherein the stirring means (100),
A plurality of first stirring blades 113 installed inside the outer cylinder 10;
It consists of a second stirring blade (123) installed on one surface of the lid 20,
The first stirring wing 113,
A first rotational shaft 111 that is penetrated through one surface of the outer cylinder 10 and rotated by receiving the rotational force of the first motor 110 rotated forward and backward;
A first rotating plate 112 coupled to one end of the first rotating shaft 111; configured to rotate by being coupled to one surface of the first rotating plate 112,
The second stirring blade 123,
A second rotational shaft 121 which passes through the lid 20 and receives the rotational force of the second motor 120 rotated forward and backward, and rotates in a direction opposite to the direction in which the first rotational shaft 111 rotates;
The second rotating plate 122 is coupled to be penetrated to one end of the second rotating shaft 121; the composition is coupled to the first stirring blade 113 and the second stirring blade 123 is rotated in opposite directions to each other, the grains germinated A grain germination drying apparatus equipped with a drying means, characterized in that it is configured to prevent tangling.
The method according to claim 2,
The first rotating shaft 111 is provided with a rotating plate moving means 130 to prevent the grain from tangling by moving the first stirring blade 113 forward and backward,
The rotating plate moving means 130,
A moving groove 140 formed in the longitudinal direction on the first rotation shaft 111;
A moving hole 141 formed at upper and lower ends of the first rotating shaft 111 in communication with the moving groove 140;
A cylinder rod 151 is provided along the moving groove 140, the cylinder 150 is coupled to the other end of the first rotary shaft 111;
Consists of a coupling portion 152 that is withdrawn from the moving hole 141 and coupled to the end of the cylinder rod 151 to be coupled to the other surface of the first rotating plate 112,
At the end of the first rotating shaft 111, an auxiliary stirrer 160 consisting of a rotating part 170 and a plurality of rotating blades 171 is installed and configured using a power transmission means 180, and the intermediate portion of the grain to be stirred is once again. Configured to prevent tangle by rotating,
The power transmission means 180,
A plurality of fixing grooves 191 are provided along the outer circumferential surface, and a power connection unit 190 that is built up on the outer circumferential surface of the first rotating shaft 111;
A mounting groove 200 in which the power connection unit 190 is installed is provided, and a rotating unit 170 having a rotary blade 171 formed on one surface;
An installation groove 210 formed on an inner surface of the rotating part 170 in communication with the mounting groove 200;
It is coupled to the installation groove 210 by a hinge, and is configured to be coupled to the fixing groove 191 by the elastic force of the spring 221, the detent 220 for transmitting the rotational force of the first rotating shaft 111 to the auxiliary stirrer 160 Configured, so that the first rotating shaft 113 is rotated in the reverse direction when the auxiliary stirrer 160 is configured to prevent rotation of the grain germination drying apparatus equipped with a drying means.
The method according to claim 1,
The housing (1) is further provided with a water supply means for supplying the moisture required when the grain germinates,
The water supply means,
A hot water supply port 320 formed on the rear surface of the outer cylinder 10;
A hot water outlet 330 formed under the outer cylinder 10;
Consists of a constant temperature water supply 310 that is installed spaced apart from the drum (1) to supply the hot water supply port 320, the hot water,
When the constant temperature water is discharged through the hot water outlet 330, the first rotating plate of the inner cylinder 300 provided with a plurality of perforation holes 301 to prevent the grains introduced into the outer cylinder 10 from flowing out to the outside at the same time as the constant temperature water A grain germination drying apparatus equipped with a drying means characterized in that it is configured to be coupled to one surface of (112).
The method according to claim 1, wherein the warming means 500,
A warm cooling housing 510 installed at equal intervals on the outer circumferential surface of the outer cylinder 10;
The housing 1 is provided with a contact surface 511 which is in contact with the outer circumferential surface, and a peltie element 512 installed inside the warm and cold housing 510;
A button unit 514 installed to be connected to the control unit 600 to change the polarity of electricity supplied to the peltai element 512 by the control signal of the control unit 600;
A device for drying grain germination provided with a drying means, characterized in that it comprises; a heat dissipation fan (513) installed in a warm / cooling housing (510) to cool the felt tie element (512).

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