JPS59162955A - Recirculation type grain cooling apparatus - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a circulating grain cooling device suitable for, for example, sake-brewing rice.

Sake-brewed rice must have the bran completely removed from brown rice, and at that time, it is polished using a grinding device such as a grinder, which causes the rice grains to become hot and cannot be used as is. It is necessary to lower the temperature to an appropriate level. For this reason, natural cooling was used, but it took a long time for the temperature of the rice grains to drop uniformly and completely, and there was a risk that fat would come out of the rice grains themselves, making the rice unsuitable for sake brewing. In addition, rapid cooling of high-temperature rice grains may cause deterioration.

The purpose of the present invention is to perform gentle and complete cooling using a constant cooling air applied to grains within the same time period, thereby reducing the time compared to natural cooling and safely and reliably achieving a constant gradual cooling within the same time period. To provide a circulation-type grain cooling device which can perform cooling without causing any change in grains, has a small cooling part, and can automatically stop cooling at a set temperature.

Embodiments of the present invention will be described in detail based on the drawings.
A grain tank 1 is loaded with grains 2 such as sake brewed rice that have been polished by a grinding rice mill and heated to a high temperature by an m-grain machine 17. A cold grain tank 3 is connected to the lower outlet of the grain tank 1.

At the lower part of the non-cooled part 4 provided in the upper part of the grain cooling tank 3, a large number of mountain-shaped vein-shaped umbrellas 5, 6 are horizontally hung in parallel on both side walls 7.8 of the tank 3. is provided with a large number of ventilation holes 9, and an air supply chamber 10 facing the ventilation holes 9 is provided on the outside.
A cooling section 12 is formed by connecting a vein-shaped umbrella 5 forming an exhaust path to a through hole 11 provided in the other side wall 8, and connecting a vein-shaped umbrella 6 forming an air supply path to the through hole 9. Cooling section 1 of grain cooling tank 3
An uncooled part 13 is provided at the bottom of the 2, and a discharge valve 15 consisting of a rotary impeller is connected to the discharge port 14 at the bottom of the non-cooled part 13.
The grains 2 suspended horizontally in parallel with the grain tank 6 and flowing down from the discharge port 14 are supplied to the grain feeding section 18 of the grain tank 1 by a grain lifting machine 17 via a screw conveyor 16. Grain cooling tank 3
A scattering plate 19 is rotatably mounted on the upper non-cooled part 4 of the apparatus to allow the grains 2 to flow down uniformly. An air passage 21 containing a cooler 20 is connected to the air supply chamber 10, and the air passage 21 is connected to an ultrasonic humidifier 22 and a blower 23 to form a cold air supply device. When the temperature of the grains 2 discharged from the grain cooling tank 3-3- reaches the set value, the cooler 20. Ultrasonic humidifier 22. A thermometer 24 is provided at the rear stage of the cooling section 12 of the grain cooling tank 3 to send a signal to the blower 23 etc. to stop the cold air supply device, and the electric circuit of this thermometer 24 is connected to the electric circuit of the cold air device, a lamp, and a buzzer. and other alarm devices 25. To explain this electric circuit, when the temperature detection sensor of the thermometer 24 detects a predetermined temperature setting value, the electromagnetic relay is energized to open the contact, and the cooler 24
In addition, other electromagnetic relays are similarly excited to open other contacts, and the ultrasonic humidifier 22 and blower 23 are stopped and an alarm is issued.

After that, 1! The circulation path of the grain machine 17 etc. is switched to discharge the grains to the outside.

3 and 4 show another embodiment of the present invention, in which a grain cooling tank 101 has a plurality of ventilation porous walls 1
02... are set up at appropriate intervals, and
Picture style chamber 10 provided inside the circular outer wall of the grain cooling tank 101
A plurality of ventilation chambers 105 are provided, each communicating with the ventilation chamber 104 and the ventilation chamber 104, and the ventilation chambers 105 are arranged on both sides of the ventilation chamber 105. . . . are installed in parallel, and each cooling chamber 106 . A section 107 is provided, and the total volume of the grain layer section 107 is smaller than the total volume of each of the cooling chambers 106, old, and so on. Each of the cooling chambers 106...
A rotor wheel discharge valve 109 is attached to the lower discharge port 108 of the rotor, respectively, and the discharge valve 10
The grains flowing down from the grain tank 9 pass through the screw conveyor 111 of the flowing grain layer 110 and are sent to the upper grain tank section 10 by the elevator 112.
It is fried and converted into 7 grains.

A hopper 113 is provided at the bottom of the rental machine 112 for supplying polished rice from outside the machine, and an outlet with a switching valve is provided at the top for discharging the polished rice that has been tempered. These structures are generally well known.

The picture style room 103 is connected to a blower 116 of a cold and humid air supply device through a picture style cylinder 115 provided with an on-off valve 114 for switching the air paths Δ and B. The coolers 117 and -5- are connected to the humidifier 118, respectively, and are also connected to the exhaust chamber 1.
04 is connected to an on-off valve 119 for switching between the air paths C and D, and an exhaust pipe 120 provided with an exhaust fan. Further, a scattering plate 121 is rotatably attached to the supply port in the upper part of the grain cooling tank 101 for discharging the grains uniformly.

122 is a thermometer installed in the grain passage of the grain cooling tank 101, and when the temperature of the grains discharged from the grain cooling tank 101 reaches a set value, the control circuit 123 causes the cooler 117. A signal is sent to the humidifier 118 and the air filter 116 to stop them, and the alarm 124 is activated to issue an alarm.

In the above configuration, raw polished rice is supplied to the supply hopper, and the grain is fried by the elevator 112 and sent to the grain cooling tank 10.
The upper grain tank section 1 is configured so that a grain layer serving as a canopy to prevent air leakage is formed above each cooling chamber 106.
Store it up to the position shown in 07. Next, picture tube 115
Operate the on-off valve 114 of the picture style side to close the air passage B and open the air passage A, and operate the on-off valve 119 of the exhaust pipe 120 to close the air passage C on the exhaust side -6-. When the device is started by opening the air passages, the cold and hot air sent from the humidifier 118 and the cooler 117 flows in from the air passage A and moves into each cooling chamber 106 as indicated by the solid line arrows in the figure. During this time, the grains in the grain layer formed in each chamber are cooled and humidified from one direction. In addition, the on-off valves 114 and 119 are switched in a timely manner to ensure that the air passage B on the painting side and the air passage L on the exhaust side
When each mmC is opened, the cold and hot air sent from the cooler 117 and humidifier 118 flows into each cooling chamber 106...
・Flows in the direction of the dotted arrows in the figure, and the grains in the grain layer are cooled and humidified from opposite directions, and the entire grain layer is cooled and humidified almost uniformly and uniformly by so-called alternating ventilation. be done. And each cooling chamber 106...
The grains are removed by the rotation of each discharge valve 109...
The grains are sequentially discharged to the lower flowing grain layer 110, and then transferred to the screw conveyor 111. Elevator 112. It is converted into an upper grain tank section 107 via a scattering disk.

When the thermometer 122 detects that the grain temperature has reached the set humidity, the control circuit 123 controls the cooler 117. The humidifier 118 and the blower 116 are stopped, and the alarm 124 is activated to issue an alarm. The grains are then taken out of the machine through a discharge port provided at the top of the elevator 112.

FIG. 5 shows still another embodiment of the present invention, in which a front wall 202 and a rear wall 20 are provided inside a grain cooling tank 201.
A switching valve 212 consisting of an inclined side wall piece 204 and a side wall opening/closing piece 213 is rotatably provided at the lower end of the front side wall 202, and an inclined side wall piece 2 is provided at the lower end of the rear side wall 203.
05 are installed in succession.

The slanted side wall pieces 204 and 205 are alternately arranged in a staggered manner, and a pressure supply path 208 and an air exhaust path 209 are provided below each of the side wall pieces 204 and 205, and a humidifier and a cooler are provided. 214 and ventilation l! 207, the humidified air generated by the humidifier 211 is supplied to the cooler 21.
4, the air flows from the picture air passage 208 through the downstream passage 210, that is, the cooling section, and reaches the exhaust air passage 209. Grain flows down the flow path 2
10, while flowing down in a zigzag pattern, generally -8
− The grains are uniformly cooled and humidified. Polished rice is used in grain cooling tank 2
01 is not full, an on-off valve 212 rotatably mounted on the front wall 202 closes the supply pressure passage 208 by the weight of the side wall opening/closing piece 213 to prevent air leakage, and the flow passage 21
When polished rice flows in the inside of the container 0, the inclined side wall piece 204 moves downward and listens to the pressure supply path 208.

A grain lifting machine 214 is attached to the grain cooling tank 201, and the same polished rice is circulated through the flow path 210 of the grain cooling tank 201 multiple times to be cooled and humidified.

222 is a temperature meter installed in the grain passage of the grain cooling tank 201, and when the temperature of the grains discharged from the grain cooling tank 201 reaches a set value, the control circuit 206 controls the temperature of the cooler 217. A signal is sent to the humidifier 211 and the blower 207 to stop them, and the alarm 213 is activated to issue an alarm.

According to the present invention, the heated grains supplied from the grain tank are supplied to the grain cooling tank, where the grains flow down and are gradually cooled uniformly at a constant temperature by cold air, and then pass through the grain lifting machine from the discharge port. Since the grains are circulated several times to the grain tank until they are cooled to the desired temperature, there is no need for a long period of time as in natural cooling, and the cooling unit can be small. Also, there is no need to worry about the grain being affected by rapid cooling.

Furthermore, once the grains are cooled to the desired temperature using the thermometer, the cold air supply device automatically and reliably stops, which saves time and effort.

[Brief explanation of drawings]

FIG. 1 is a side sectional view of an embodiment of the invention, FIG. 2 is a front sectional view of FIG. 1, FIG. 3 is a side sectional view of another embodiment of the invention, and FIG. FIG. 3 is a plan sectional view, and FIG. 5 is a partially cutaway side view of yet another embodiment of the present invention. 1... Grain tank, 2... Grain, 3,101,20
1... Grain cooling tank, 4... Uncooled part, 5.6.
...Vinated umbrella, 7.8...Side wall, 9...Through hole, 10.
... Air supply chamber, 11... Ventilation hole, 12... Cooling section, 13
... Uncooled section, 14... Discharge port, 15... Discharge valve, 16... Screw conveyor, 17... Grain lifting machine,
18... Grain feeding section, 19... Scatterer, 20. ．． 117
, 217... Cooler, -10- 21... Air path, 22,118.211... Humidifier,
23,116,207...Blower, 24,124゜2
22...Thermometer. Patent applicant Satake Manufacturing Co., Ltd. -11- Figure 1 Figure 2 Figure 3 Figure 4

Claims (1)

Scope of Claims: (1”) A cold and moist air supply device is connected to the I9 type cooling tank, and an outlet of the grain cooling tank is connected to a grain feeding section by a grain lifting machine, A grain thermometer installed in the grain passage is connected to the cold and moist air supply device, and when the temperature value of temperature (1) reaches the set temperature, the cold and moist air supply device is automatically stopped. Circulating grain cooling device provided with an electric control circuit. (2) The electric control circuit issues an alarm when the temperature value of the thermometer reaches a set temperature and the cold and moist air supply device automatically stops. A circulating grain cooling device according to claim 1.