KR101168816B1 - Fruits ripening system hanging from the ceiling - Google Patents

Abstract

PURPOSE: A ceiling mounting type fruit ripening system is provided to maintain the uniform temperature and humidity inside a storage chamber regardless of the mounted height of fruits inside the storage chamber. CONSTITUTION: A ceiling mounting type fruit ripening system comprises the following: a storage chamber(100) for mounting fruits in the inside; a first temperature sensor(111) measuring the temperature on the upper side of the storage chamber by being located on the ceiling or the upper side of the storage chamber; a second temperature sensor(112) measuring the temperature on the lower side of the storage chamber by being located on the bottom of the storage chamber; an air circulation controller(200) connected to the ceiling of the storage chamber using a fixing unit for circulating air inside the storage chamber and for controlling the uniform temperature and humidity; a micro-processor calculating the difference between information from the first and second temperature sensors, and generating control signals; a signal transmitting device transferring the control signals to a variable drive motor; and a controller(300) controlling a heater(210), a humidifier(220), and a blower fan(231) of the air circulation controller.

Description

Fruit Ripening System Hanging From The Ceiling}

The present invention relates to a ceiling-mounted fruit aging system, and more particularly, in the storage for storing and storing a large amount of harvested fruit to maintain a uniform temperature and humidity to the appropriate height as much as possible a large amount of fruit uniform and high It relates to a ceiling-mounted fruit aging system that is matured to have a marketability.

In general, the fruits are usually stored in a storage facility after harvesting and shipped in a timely manner, rather than being immediately shipped to the market. This is for fruit farmers or middle merchants to adjust their shipments for maximum profit, and it is necessary to artificially ripen them according to the time of harvesting various fruits to maintain high marketability. In other words, if a fruit farmer harvests the fruit after it is fully mature and stores and ships the fruit, the marketability of the fruit decreases over time. Therefore, the fruit farmer generally harvests and stores the fruit when the fruit is unripe. It will be stored in the same storage and then shipped.

In this case, the fruit farmers needed to adjust the ripening during the storage period to ensure that the harvested fruits had the best commercial quality according to the shipping time and the logistic movement time. The fruit was stored and shipped, and the only way to artificially ripen the fruit was to use a heating device such as a stove in a storage room such as a warehouse to increase the temperature of the storage room. Therefore, the conventional simple method has a problem in that it is difficult to have the best quality at the time of shipment and distribution, there is a problem of reducing the income of fruit farmers.

In addition, a large number of fruits are stored and stored in a storage, such as a warehouse, where the fruit is harvested and stored. When the temperature of the storage is increased by a heating device such as a stove to ripen the fruits to some extent, depending on the location where the fruits are stored Even if the temperature deviation is present at the same time harvested and aged for the same time, the degree of ripening of the fruit is different, there was another problem that the product is jagged.

In addition, in order to maintain the temperature of the reservoir at a constant temperature that is ripe for fruit ripening, the thermometer is often checked, and when the temperature is low or too high, it is forced to respond manually accordingly, there is another very troublesome problem.

In addition, in order to properly ripen the stored fruit, the humidity of the storage must also be maintained optimally. Conventionally, fruit farms supply sprays of water directly with a sprayer or place water near a heating device such as a stove. There was another problem that was not efficient.

The problem to be solved by the present invention is not only to maintain the desired temperature and humidity in the storage for harvesting and aging the fruit at all times, but also to have a uniform temperature and humidity regardless of the height of the fruit, such as when the fruit is shipped and circulated According to the present invention, it is to provide a ceiling-type fruit ripening system that can adjust the degree of ripening so that all fruits have the best commercial value.

The ceiling-mounted fruit ripening system for solving the above problems, and a storage that can be stored and stored therein; Is connected to the fixing means so as to maintain a constant distance from the ceiling surface of the storage, one side or both sides are formed with a predetermined size of the inlet, the bottom surface is formed with a certain size of the exhaust port, the heater radiating heat inside An air circulation control unit configured to circulate air while maintaining a uniform temperature and humidity at an upper end and a lower end of the reservoir, provided with a humidifier for supplying a device and a humidifier and an air blower for discharging air to the exhaust port; And a control unit for controlling the operation of the heater unit and the humidifier of the air circulation control unit, the control unit being located inside or outside the one side wall of the reservoir.

At this time, the humidifier may use a high-temperature evaporative humidification device consisting of a water supply pipe for supplying water, and a heating device for heating the water supplied from the water supply pipe to convert to steam, the heating automatically when the water supply is stopped It may further comprise a float switch to stop the operation of the device to prevent the fire caused by overheating.

In addition, the humidifier may be an ultrasonic humidifier comprising a water supply pipe for supplying water and an ultrasonic generator for applying ultrasonic waves to the water supplied from the water supply pipe.

On the other hand, the blower is composed of a blower fan and a drive motor, it is preferable to use a low-speed multi-blade blower fan, the control unit for the individual operation and stop of each of the heater unit and the humidifier in the air circulation control unit The additional switch to be determined can be installed so that it can be operated according to the purpose such as using only a heater or a humidifier or using both a heater and a humidifier.

And, it is preferable to always check the temperature and humidity by mounting a temperature sensor for detecting the internal temperature of the reservoir and a humidity sensor for detecting the internal humidity of the reservoir in the reservoir.

In this case, the controller may further include a display device for displaying information detected by the temperature sensor and the humidity sensor, and an input device for setting a desired temperature and humidity of the storage. It can also be automatically adjusted to the desired temperature and humidity.

The temperature sensor may include a first temperature sensor positioned at a ceiling surface or an upper end of the reservoir to measure a temperature of the upper end of the reservoir, and a second temperature positioned at a bottom surface or a lower end of the reservoir to measure a temperature of the bottom of the reservoir. It is better to configure the temperature sensor.

In addition, the blower of the air circulation control unit is composed of a blower fan and a variable drive motor, the control unit receives the information of the first temperature sensor and the second temperature sensor calculates the difference and generates a control signal according to the difference And a signal transmission device configured to transfer a control signal generated by the microprocessor to the variable driving motor to adjust a driving speed, so that the temperature of the upper end and the lower end of the reservoir is maximized. It is more desirable to keep it uniform.

In the present invention, in storing various fruits, and ripening for a certain period of time, by arbitrarily freely controlling the temperature and humidity of the storage, an excellent advantage that can be fully matured according to the point of time when the fruits are shipped and distributed to maintain the best quality There is this.

In addition, the present invention by allowing the air having a constant temperature and humidity supplied in the storage can be evenly circulated evenly, even if a large amount of fruit stored in a large storage in high storage can be made to have almost the same degree and ripen all fruits. There is another advantage to keep the quality of the fruit shipped uniformly.

In addition, the present invention is to automatically control the inside of the reservoir to have a specified temperature and humidity, so that the fruit farmers do not have to manually control the temperature manually or spray directly to supply moisture, such as very easy and efficient There is another advantage.

In addition, the present invention by selectively operating or timed the device for heating the air supplied to the inside of the reservoir or the device to add moisture, by aging the fruit according to the shipping time, or by storing various agricultural products that need to dry the hot air There is another advantage that can be used for multi-purpose by drying using.

1 is a schematic diagram of a ceiling-mounted fruit ripening system according to the present invention.
2 is a front view of one side of the control unit according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

1 is a schematic diagram of a ceiling-mounted fruit ripening system according to the present invention, Figure 2 is a front view of one side of the control unit according to the present invention.

1 and 2, the ceiling-mounted fruit ripening system according to the present invention is a storage 100 that can be stored and stored the fruit therein, and is attached with a certain space on the ceiling surface of the storage 100 Is configured to include a control unit 300 for controlling the operation of the air circulation control unit 200 and the air circulation control unit 200.

At this time, the storage 100 may use a general warehouse building, etc. In this case, it is very preferable to prevent thermal loss by additionally performing insulation work or airtight reinforcement work.

In addition, the storage 100 is equipped with a temperature sensor 110 and a humidity sensor 120 for detecting the state of the temperature and humidity inside the storage, respectively, at a predetermined position, the temperature sensor 110 and the humidity sensor 120 The collected temperature information and humidity information are transmitted to the controller 300. The temperature sensor 110 and the humidity sensor 120 may be installed at any position, such as one side wall or the top ceiling surface of the reservoir 100, in particular, the temperature sensor 110 is located inside the reservoir 100. Although only one may be installed, it is preferable to install at least one or more on the ceiling surface and the bottom surface of the storage room 100 so that the temperature of the upper and lower temperatures of the storage room 100 can be compared, and in this case, the storage room 100 Of course, by installing on the top and bottom of one side wall of the reservoir 100 instead of the ceiling surface and the bottom surface of the reservoir 100 may be measured the temperature of the top and bottom.

On the other hand, the air circulation control unit 200 is suspended at a predetermined interval from the ceiling surface of the storage unit, which is the heat generated from the air circulation control unit 200 is directly transmitted to the ceiling surface of the storage unit causes a fire It is to prevent that in advance. In this case, a computer bolt may be used as the fixing means 260 for connecting the air circulation control unit 200 to the ceiling surface of the storage unit. Thus, by installing the air circulation control unit 200 on the ceiling surface of the storage unit, there is an advantage that can further secure the space of the bottom surface of the storage unit can store a larger amount of fruit.

In addition, the air circulation control unit 200 has an inlet port 240 is formed on one side, the exhaust box 250 is formed on the lower surface is formed in a sealed box form, the heater device for dissipating heat inside ( 210, a humidifier 220 for supplying moisture, and a blower 230 for discharging air through the exhaust port 250 are mounted. In this embodiment, although the inlet 240 is formed only on one side of the air circulation control unit 200, both sides are considered in consideration of the size of the reservoir 100 or the attachment position of the air circulation control unit 200, and the like. Of course, the suction port 240 can be formed in the.

In this case, the heater device 210 may use a general heating device, but may use a heating device that operates on fuel such as petroleum or natural gas, but using a heating device using electricity in consideration of being attached to the ceiling. It is more preferable that the device can be miniaturized. The heater device 210 is formed in the upper end of the discharge port formed on the lower surface of the air circulation control unit 200 rather than being mounted at any position of the air circulation control unit 200, the air recovered from the reservoir 100 Heated again to be immediately discharged to the reservoir (100).

On the other hand, as the humidifier 220 may be used a variety of general humidifier, it is preferable to use a high temperature evaporative humidifier or ultrasonic humidifier, in this embodiment, the water supply pipe 222 for supplying water from the outside A high temperature evaporative humidification device is disclosed that includes a heating device 221 for heating excess water and vaporizing water vapor.

At this time, the humidifier 220 is preferably installed between the suction port 240 and the heater device 210 formed on one side of the air circulation control unit 200, which is recovered from the reservoir 100 and the suction port This is to supply steam directly to the air introduced into the 240 to be sent to the heater device 210 to be heated.

In addition, a blower for smoothly supplying the air heated by the heater device 210 and the humidifier 220 and sufficiently supplied with water to the reservoir 100 and allowing the air in the reservoir 100 to be sufficiently circulated. 230 is installed, the blower 230 is composed of a blowing fan 231 and a drive motor 232 for rotating the blowing fan 231. At this time, the blowing fan 231 is preferably a low-speed multi-blade blowing fan called a sirocco fan among the various types of blowing fan, such a sirocco fan is a full-curve fan bent in the rotational direction of the end of the wing The same capacity is very suitable for the present invention because of its small size and relatively low number of revolutions compared to other types for the same capacity. In addition, the drive motor 232 may be used a general motor having a predetermined number of rotation, the variable drive motor 232 to adjust the number of rotation of the blower fan 231 according to the state of the reservoir 100 It is more preferable to use.

The blower 230 is installed between the outlet formed on the lower surface of the air circulation control unit 200 and the heater device 210, the humidity is supplied by the humidifier 220 and the heater device 210 The heated air by) is supplied to the reservoir 100 through an outlet. At this time, the blower 230 not only serves to supply air to the storage 100, but also through the inlet port 240 formed on one side of the air circulation control unit 200 through the air circulation control unit 200 By allowing the air to be recovered to the) also serves to smoothly circulate the air in the reservoir (100). In addition, it is a matter of course that by installing a separate ventilator in the inlet port 240 formed on one side of the air circulation control unit 200 to circulate the air more easily and efficiently.

On the other hand, the control unit 300 may be selectively mounted on the inner wall or the outer wall surface of the reservoir 100, each device of the air circulation control unit 200 and the temperature sensor 110, humidity sensor 120 And a wired method using a wire, and / or a wireless method such as RF, and the like, and are in electrical communication with each other, and the control unit 300 is connected to the temperature sensor 110 and the humidity installed in the storage 100. The sensor 120 receives information from the sensor 120 and controls the operation of the heater device 210, the humidifier 220, and the blower 230. To this end, the controller 300 externally inputs the state information detected by the input device 320 and the temperature sensor 110 and the humidity sensor 120 of the storage 100 to set a user desired temperature and humidity. It is configured to include a display device 310 appearing. In addition, the heater device 210 or the humidifier 220 is further installed by additionally installing a switch 330 to select the operation or stop, so that only the heater device 210 operates according to the situation or purpose. In some embodiments, only the humidifier 220 may be operated, or both the heater 210 and the humidifier 220 may be operated or stopped.

In addition, when the temperature sensor 110 of the reservoir 100 is configured to be divided into a first temperature sensor 111 attached to the ceiling surface of the reservoir and a second temperature sensor 112 attached to the bottom surface of the reservoir. The controller 300 calculates a difference by comparing the temperature measured by the first temperature sensor 111 with the temperature measured by the second temperature sensor 112, and calculates a difference between the blowers 230 according to the difference. The storage unit 100 includes a microprocessor for generating a control signal for determining a driving speed of the driving motor 232 and a signal transmitting device for transmitting the above-described control signal to the driving motor 232 of the blower 230. In accordance with the temperature difference between the top and bottom of the) it is preferable that the blower 230 is operated at different wind speeds.

Next will be described briefly the operation of the ceiling-mounted fruit ripening system according to an embodiment of the present invention configured as described above.

First, the fruit harvested in the cellar 100 is placed in various trays, etc., stored in the cellar 100, and the entrance and exit of the cellar 100 are completely closed. Thereafter, the temperature and humidity of the inside of the storage room 100 are determined and set through the input device 320 of the control unit 300 in consideration of the type of stored fruit, shipping time, desired degree of ripening, and the like. In this case, it is appropriate to maintain the temperature about 30 ℃ and humidity about 80 ~ 95%.

After setting the temperature and humidity of the reservoir 100, the heater device 210 and the humidifier 220 are operated to allow the air in the air circulation control unit 200 to be heated and humidified, and thus heated and humidified. The air is blown to the outlet of the bottom of the air circulation control unit 200 by using the blower 230 to be supplied from the top of the reservoir 100 to the bottom. The air supplied from the upper end to the lower end of the reservoir 100 increases the temperature and humidity inside the reservoir 100 and again through the inlet port 240 on one side of the air circulation control unit 200. Is returned to (200). Thus, by supplying the humidified high-temperature air downward and forced to circulate upward upward again it is possible to maintain a uniform temperature and humidity in the reservoir (100).

The current temperature and humidity of the storage 100 is detected by the temperature sensor 110 and the humidity sensor 120 to deliver information to the control unit 300, the first desired temperature and humidity to reach Until the heater device 210 and the humidifier 220 continues to operate until the target value is reached, the operation is stopped, and when the temperature falls below the target value, the operation is repeated again.

In addition, the first temperature sensor 111 and the second temperature sensor 112 respectively installed on the ceiling and the bottom of the reservoir 100 transmits the temperature of the upper and lower ends of the reservoir 100 to the controller 300. The difference is compared. Comparing the temperature of the top and bottom of the reservoir 100 and automatically adjusts the driving speed of the blower 230 through the control unit 300 according to the magnitude of the difference, the top and the top of the reservoir 100 When the difference in temperature at the bottom is large, the air blower 230 rotates more quickly so that the air at the top and bottom of the reservoir 100 is better mixed and circulated, and thereafter, the temperature difference between the top and the bottom of the reservoir 100. When is reduced is adjusted to lower the drive speed of the blower 230 again.

Through such a continuous operation not only maintains the temperature and humidity of the inside of the store 100 to be suitable for the ripening of the stored fruit, the store 100 by reducing the temperature difference according to the height, such as the top and bottom of the store 100 as possible By keeping the inside temperature and humidity uniform, the stored fruit can be aged with the same quality regardless of where it is placed.

Meanwhile, as described above, the operation of the humidifier 220 may be stopped by using the switch 330 of the controller 300 and only the heater device 210 may be operated. The operation of the unit 200 may be used as an apparatus for drying various agricultural products, etc., rather than a device for ripening various fruits. That is, by supplying the air heated through the heater device 210 to the reservoir 100 through the blower 230, the contents stored in the reservoir 100 to be hot air dried, the reservoir 100 ) Through the humidity sensor 120 to continue to dry the hot air until the desired humidity is reached.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. In addition, it is obvious that any person having ordinary skill in the art to which the present invention pertains can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

100-Storage 110-Temperature sensor
111-First Temperature Sensor 112-Second Temperature Sensor
120-Humidity Sensor
200-Air circulation control unit 210-Heater device
220-Humidifier 221-Heater
222-Water line 230-Blower
231-Blower Fan 232-Drive Motor
240-Inlet 250-Exhaust
260-Fixture
300-control unit 310-display unit
320-Input Devices 330-Switches

Claims (10)

Fruits can be stored and stored inside, and the storage includes a first temperature sensor located on the ceiling or the top to measure the temperature of the top and a second temperature sensor located on the bottom or the bottom to measure the temperature of the bottom. Wow;
Is connected to the fixing means so as to maintain a constant distance from the ceiling surface of the storage, one side or both sides of the suction port of a certain size, the exhaust port of a predetermined size is formed on the lower surface, respectively, the heater device for dissipating heat inside The air circulation control unit circulates the air while maintaining a uniform temperature and humidity at the upper and lower ends of the reservoir by being equipped with a humidifier for supplying moisture and a blower comprising a blower fan and a variable drive motor to discharge air to the exhaust port. ; And
A microprocessor incorporating a program receiving the information of the first temperature sensor and the second temperature sensor, calculating a difference, and generating a control signal according to the difference, and transmitting the control signal generated from the microprocessor to the variable driving motor. It comprises a control unit for controlling the operation of the heater device, the humidifier, the air blowing device of the air circulation control unit including a signal transmission device for controlling the driving speed by transmitting, and comprises a control unit located inside or outside the wall of one side of the reservoir. Ceiling-mounted fruit aging system. The method of claim 1,
The humidifier is a ceiling mounted fruit ripening system, characterized in that consisting of a water supply pipe for supplying water, and a heating device for heating the water supplied from the water supply pipe to convert to steam. The method of claim 2,
The humidifier is a ceiling type fruit ripening system, characterized in that the high-temperature evaporative humidification device further comprises a float switch to automatically stop the operation of the heating device when the water supply is stopped. The method of claim 1,
The humidifier is a ceiling mounted fruit ripening system, characterized in that consisting of a water supply pipe for supplying water and an ultrasonic generator for applying ultrasonic waves to the water supplied from the water supply pipe. The method of claim 1,
The blower is a ceiling-mounted fruit ripening system, characterized in that consisting of a low-speed multi-wing fan and a drive motor. The method of claim 1,
The control unit is a ceiling mounted fruit ripening system, characterized in that further comprising a switch for determining the individual operation and stop of each of the heater and the humidifier air circulation control unit. 7. The method according to any one of claims 1 to 6,
The reservoir is ceiling mounted fruit ripening system, characterized in that further comprises a humidity sensor for detecting the internal humidity of the reservoir. The method of claim 7, wherein
The control unit may further include a display device for displaying information detected by the first temperature sensor, the second temperature sensor, and a humidity sensor, and an input device for setting a desired temperature and humidity of the storage. Ceiling fruit aging system. delete delete

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