KR102042922B1 - Light convergence storage and driving method thereof - Google Patents

Abstract

The present invention relates to an optical convergence storage warehouse and a driving method thereof. The optical convergence storage warehouse comprises: an agricultural product storage chamber which has agricultural products stored therein; a plate type lighting device which has a plurality of LEDs installed on a ceiling of the agricultural product storage chamber to be away from each other and irradiating light to the agricultural products; an air conditioning device which collects heat generated from a rear surface of the LEDs of the plate type lighting device to emit the same into the agricultural product storage chamber; a temperature sensor which measures the temperature inside the agricultural product storage chamber; a humidity sensor which measures humidity inside the agricultural product storage chamber; and a control device which controls the air conditioning device if the temperature measured by the temperature sensor is a preset temperature or less or if humidity measured by the humidity sensor is preset humidity or more. Accordingly, the present invention makes a storage state of agricultural products fresh to maintain freshness.

Description

Light convergence storage and driving method

The present invention relates to a light-fusion storage warehouse, and more particularly, when the measured temperature and humidity does not meet the reference value, the flat panel lighting device assembled by a heat path mounted on the rear of the flat panel lighting device by controlling and driving the air conditioner By discharging the heat of the back of the plurality of LEDs into the agricultural product storage room, by controlling the temperature and humidity of the agricultural product storage room to make the storage state of the produce comfortable, to maintain the freshness, and to irradiate the stored produce by the LED light It relates to a light fusion storage warehouse and a driving method thereof that can increase storage and useful components.

In general, there is a considerable cost when trying to store the produce at a dry and low temperature.

In other words, maintaining and storing fresh produce from the point of harvest is an important factor that determines the merchandise, and consumes a lot of energy and money to store for this purpose.

Therefore, in the process of storing agricultural products, there is a demand for technology development that maintains the freshness of agricultural products and reduces the energy consumption to reduce costs.

Korean Patent Publication No. 10-0951628 (Patent Document 1) has a storage room provided with a storage space for storing agricultural products therein; At least one temperature control and dehumidification unit provided at an upper portion of the storage chamber to control the internal temperature and humidity of the storage space by heating or cooling the internal air of the storage space or by dehumidifying the internal humidity of the storage space; A circulation duct provided at a predetermined interval from the inner wall of the storage chamber for circulation of the internal air of the storage chamber; And a plurality of forced air blowing units provided adjacent to the temperature control and dehumidification unit such that the air heated or cooled by the temperature control and dehumidification unit is forcibly moved along the circulation duct. A panel unit spaced apart from one inner wall of the storage compartment by a predetermined distance; At least one support part fixed to one end of the panel part and provided in a horizontal direction along the one inner wall to separate the panel from the one inner wall; A support portion disposed along a circumference of a bottom wall of the storage compartment; And a plurality of extensions coupled to a bottom portion of a portion of the supporting portion in which the panel portion is disposed, and extending to a ceiling side of the storage chamber along the one inner wall, wherein the at least one support portion includes the plurality of extension portions. Disclosed is a agricultural product storage warehouse, characterized in that a plurality of support portions are provided between each.

Patent document 1 has the advantage that the internal temperature and humidity of the storage space in which agricultural products are stored can be easily, quickly and uniformly controlled, but the cost is increased due to the expensive temperature control and the installation of a dehumidification unit. There is no disclosure of a technical configuration for maintaining freshness.

: Korean Registered Patent Publication No. 10-0951628

The present invention has been made in view of the above, and an object thereof is to provide a light-fusion storage warehouse and a driving method thereof, which can maintain the freshness by making the storage state of agricultural products comfortable and increase the useful components. have.

In order to achieve the above object, the optical fusion storage warehouse according to an embodiment of the present invention, the agricultural product storage room in which agricultural products are stored; A flat panel lighting device provided with a plurality of LEDs spaced apart from the ceiling of the agricultural product storage room and irradiating light to the agricultural products; An air conditioner that collects heat generated from the back of the plurality of LEDs of the flat panel lighting apparatus and discharges the heat into the agricultural product storage room; A temperature sensor for measuring a temperature inside the agricultural product storage room; Humidity sensor for measuring the humidity in the agricultural product storage room; And a control device for controlling the air conditioning apparatus when the temperature measured by the temperature sensor is less than or equal to the set temperature or when the humidity measured by the humidity sensor is greater than or equal to the set humidity.

The air conditioner includes: a heat passage through which the rear surface of each of the flat lighting devices is exposed to collect heat generated from the flat lighting device; And a blowing fan,

The blower fan is installed on one side of the heat passage, and the heat collected through the other side of the heat passage is discharged into the agricultural product storage compartment.

Here, the suction fan is mounted on the other side of the heat passage.

The heat path may be implemented by exposing a rear surface of each of the flat panel lighting devices and by a guide box mounted to the flat panel lighting device.

The present invention is characterized in that the plurality of LEDs include red, green, and blue light sources and near-infrared light sources.

Here, the plurality of LEDs is characterized in that it comprises an ultraviolet light source.

The present invention further includes a heat dissipation plate attached to the rear surface of the flat lighting device,

The heat dissipation plate is a heat sink attached to the rear surface of the flat lighting device; And a plurality of discharge pins protruding from the heat sink,

The plurality of discharge pins have a stripe shape of stripes separated from each other in the direction of the wind flow of the blowing fan,

The heat sink and the plurality of discharge fins are located inside the heat passage.

In addition, the present invention is characterized in that the control device is interlocked with the portable terminal, the portable terminal is configured to control the air conditioning apparatus.

In addition, the present invention is characterized in that the light fusion storage warehouse further comprises a gas sensor capable of detecting the ethylene generated in the decay process of the produce.

According to an embodiment of the present invention, there is provided a method of driving a light-fusion storage warehouse, the method comprising: a) storing agricultural products in a agricultural product storage room;

b) irradiating light to the produce in a flat lighting device having a plurality of LEDs spaced apart from the ceiling of the produce storage room;

c) measuring a temperature inside the produce storage compartment;

d) determining whether the measured temperature is below a set temperature; And

e) collecting the heat generated from the back of the plurality of LEDs of the flat panel lighting device to discharge the inside of the agricultural product storage room by driving the air conditioner when the measured temperature is less than the set temperature.

According to an embodiment of the present invention, there is provided a method of driving a light-fusion storage warehouse, the method comprising: a) storing agricultural products in a agricultural product storage room;

b) irradiating light to the produce in a flat lighting device having a plurality of LEDs spaced apart from the ceiling of the produce storage room;

c) measuring humidity inside the produce storage chamber;

d) determining whether the measured humidity is greater than or equal to a set humidity; And

e) collecting the heat generated from the back of the plurality of LEDs of the flat panel lighting device to discharge the inside of the agricultural product storage room by driving the air conditioner when the measured humidity is above the set humidity.

According to the present invention, when the measured temperature and humidity do not meet the reference value, the air conditioner is controlled and driven to collect heat from the rear surface of the plurality of LEDs of the flat panel lighting apparatus, which are collected in a heat passage mounted on the rear surface of the flat lighting apparatus, and produce storage room. By discharging to the inside, by controlling the temperature and humidity of the agricultural product storage room there is an advantage that can maintain the freshness by making the storage state of agricultural products comfortable.

In addition, the present invention has the advantage of increasing the useful components such as vitamin C as well as the fresh storage of agricultural products by the action of inhibiting bacteria propagation, ethylene generation control, plant growth, aging inhibition by irradiating the stored agricultural products with LED light. have.

In addition, the present invention can detect the ethylene generated in the decay process of the agricultural products to circulate the air by the air conditioning apparatus to keep the air in the storage room fresh.

1 is a conceptual configuration diagram of a light fusion storage warehouse according to the present invention,
Figure 2 is a bottom view for explaining the flat lighting device and the air conditioning apparatus installed on the ceiling of the light fusion storage warehouse according to the present invention,
3 is a cross-sectional view for explaining a heat passage of the air conditioning apparatus applied to the light fusion storage warehouse according to the present invention,
Figure 4 is a cross-sectional view for explaining the heat flow of the flat lighting device and the air conditioning apparatus applied to the light fusion storage warehouse according to the present invention,
5a and 5b is a conceptual diagram for explaining the arrangement of the LED installed in the flat lighting device of the optical fusion storage warehouse according to the present invention,
6 is a schematic perspective view for explaining a heat dissipation plate attached to a flat panel lighting apparatus according to the present invention;
FIG. 7 is a schematic cross-sectional view for explaining a state in which trays for stacking agricultural products stored in an optical fusion storage warehouse according to the present invention are stacked; FIG.
8 is a flowchart illustrating a method of driving an optical fusion storage warehouse according to a first embodiment of the present invention;
9 is a flowchart illustrating a method of driving an optical fusion storage warehouse according to a second embodiment of the present invention.

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

Before explaining the embodiments, there may be a number of ways to implement the configuration of the claims of the present invention, the following embodiments are intended to illustrate one example of implementing the configuration of the claims Say. Therefore, the scope of the present invention is not limited by the following examples.

1 is a conceptual diagram of a light fusion storage warehouse according to the present invention.

Referring to FIG. 1, a light fusion storage warehouse according to the present invention includes a farm product storage room 100 in which farm products are stored therein; A flat lighting device (110) installed on the ceiling (101) of the agricultural product storage room (100) and having a plurality of LEDs for irradiating light to the agricultural product (10); An air conditioner (not shown) for collecting heat generated from the back of the plurality of LEDs of the flat panel lighting apparatus 110 and discharging the heat into the agricultural product storage room 100; A temperature sensor 120 for measuring a temperature inside the agricultural product storage room 100; Humidity sensor 130 for measuring the humidity in the agricultural product storage room 100; And a control device 190 for controlling the air conditioning apparatus when the temperature measured by the temperature sensor 120 is less than or equal to a set temperature or when the humidity measured by the humidity sensor 130 is greater than or equal to a set humidity. .

The agricultural product storage room 100 includes a small storage room that can be installed inside a house that can store agricultural products or a large storage room that is held by farms and agricultural companies.

The flat panel lighting device 110 is a flat panel lighting device provided with a plurality of LEDs, to maintain the freshness by irradiating the agricultural products with light.

In addition, the flat lighting device 110 is preferably installed on the ceiling of the agricultural product storage room 100, and optionally includes the ceiling of the agricultural product storage room 100, and may further install the flat lighting device 110 on the inner wall. have.

In addition, the flat panel lighting apparatus 110 may include a metal printed circuit board (MPCB), and a plurality of LEDs may be mounted on the MPCB. MPCB is to efficiently dissipate heat generated in a large number of LEDs.

The air conditioning apparatus collects heat generated from the back of the plurality of LEDs of the flat panel lighting apparatus 110 and discharges it into the agricultural product storage room 100, and has a heat passage mounted to the rear surface of the flat panel lighting apparatus 110.

Temperature and humidity sensors (120, 130) measures the temperature and humidity inside the agricultural product storage room (100).

When the temperature measured by the temperature sensor 120 is less than the set temperature or when the humidity measured by the humidity sensor is greater than or equal to the set humidity, the controller 190 controls and drives the air conditioner to be mounted on the rear surface of the flat lighting device 110. By discharging the heat generated from the back of the plurality of LEDs of the flat panel lighting device 110 collected in the heat passage into the agricultural product storage room 100, the temperature of the agricultural product storage room 100 can be raised to a set temperature, and the humidity is set. By keeping the humidity low, the storage conditions of agricultural products can be made comfortable to maintain freshness.

Here, the set temperature and the set humidity can be set differently by the manager for each season, weather, agricultural product type.

In addition, the present invention may further include a gas sensor that can detect the ethylene generated in the corruption process of the produce.

In addition, the present invention may be configured so that the control device 190 controls the air conditioning apparatus in the portable terminal 500 in conjunction with a portable terminal such as a smartphone.

Figure 2 is a bottom view for explaining the flat panel lighting apparatus 110 and the air conditioning apparatus installed on the ceiling of the light fusion storage warehouse according to the present invention, Figure 3 is a heat passage of the air conditioning apparatus applied to the light fusion storage warehouse according to the present invention 4 is a cross-sectional view for explaining the heat flow of the flat lighting device 110 and the air conditioning apparatus applied to the light fusion storage warehouse according to the present invention.

Referring to FIG. 2, a flat lighting device 110 and an air conditioning apparatus are installed on the ceiling 101 of the light fusion storage warehouse.

Here, the flat lighting device 110 is arranged in a plurality of spaced apart arranged in a matrix form of columns and rows.

That is, as shown in FIG. 3, the heat passage 151 is connected to several flat lighting devices 110, and the rear surface of the flat lighting device 110 is exposed inside the heat passage 151, and the flat lighting device 110 is exposed. Heat generated in the heat is collected in the heat path 151.

At this time, the blower fan 160 is installed in the heat passage 151 so that the wind generated from the blower fan 160 flows along the heat passage 151. Therefore, heat generated in each of the plurality of flat panel lighting apparatuses 110 is collected and discharged to the outlet of the heat passage 151.

Here, the outlet of the heat passage 151 is that the heat discharged in communication with the interior of the agricultural product storage room 100 can increase the temperature inside the agricultural product storage room 100 or lower the humidity.

Further, in the present invention, by installing a suction fan in the outlet of the heat passage 151 may be configured to discharge the heat of the heat passage 151 to the agricultural product storage compartment 100 more quickly.

In addition, as shown in FIG. 2, a plurality of flat lighting devices 110 may be coupled to each of the plurality of heat passages spaced apart from each other, and the blowing fan 160 may be installed in a zigzag pattern for each row.

That is, when the blowing fan 160 is installed on the left side of the heat passage in one row, the blower fan 160 is installed on the right side of the heat passage in the second row and the blower fan 160 is installed on the left side of the heat passage in the third row. It is to be more uniformly supplied into the storage compartment (100).

4, the heat path may expose the rear surface of the flat lighting device 110 and may be implemented as a guide housing 150 mounted on the flat lighting device 110.

As such, the air conditioner may include: a heat passage through which the rear surface of each of the flat lighting devices 110 is exposed to collect heat generated from the flat lighting device 110; And a blowing fan 160, wherein the blowing fan 160 is installed at one side of the heat passage and discharges the heat collected through the other side of the heat passage into the agricultural product storage chamber 100.

Here, the other side of the heat passage is provided with a first outlet for discharging heat to the outside of the storage compartment and a second outlet for discharging the heat into the storage compartment, the opening and closing means for selectively opening and closing the first outlet or the second outlet is provided It may be provided.

That is, when the first outlet is opened and the second outlet is blocked by the control device controlling the air conditioning system, the heat is discharged to the outside of the storage compartment, and when the first outlet is blocked and the second outlet is opened, the heat is discharged into the storage compartment. .

The driving of the air conditioning apparatus includes the operation of the blower fan 160, control of the opening and closing means, and the like.

In addition, the present invention may further include an air conditioning apparatus capable of circulating the air in the storage compartment, the air conditioning apparatus is driven when sensing the ethylene in the gas sensor can keep the air inside the storage compartment fresh.

The storage compartment may be provided with a supply device for supplying oxygen and air.

5A and 5B are conceptual views illustrating an arrangement state of LEDs installed in the flat lighting device 110 of the optical fusion storage warehouse according to the present invention, and FIG. 6 is attached to the flat lighting device 110 according to the present invention. 7 is a schematic perspective view illustrating a heat dissipation plate 200, and FIG. 7 is a schematic cross-sectional view illustrating a stacked state of trays for stacking agricultural products stored in a light-fusion storage warehouse according to the present invention.

As described above, the flat panel lighting apparatus 110 includes an LED, and the LED includes a red, green, and blue light source and a near infrared light source.

Here, the plurality of LEDs may be freely arranged, but as shown in FIG. 5A, the red, green, and blue light sources and the near infrared light source may be one cell, and the cells may be disposed in the plurality of flat lighting devices 110. .

As shown in FIG. 5B, a plurality of flat panel lighting devices 110 are formed by uniformly arranging red, green, and blue light sources in a circular ring shape and a near infrared light source in a central region inside the circular ring shape. You can place multiple on.

The LED arrangement of FIG. 5A and FIG. 5B is to allow light to be uniformly irradiated to the produce.

In addition, the present invention may include an ultraviolet light source in a plurality of LEDs capable of sterilizing agricultural products.

As such, when the LED light is irradiated on the agricultural products, the fresh storage of the agricultural products as well as useful components such as vitamin C may be increased by the action of inhibiting bacterial propagation, controlling ethylene generation, plant growth, and aging.

Referring to FIG. 6, the heat dissipation plate 200 may be attached to the rear surface of the flat panel lighting apparatus 110 (rear surface of the surface on which the LED is installed).

The heat dissipation plate 200 includes a heat sink 210 attached to the rear surface of the flat lighting device 110; And a plurality of discharge fins 220 protruding from the heat sink 210, wherein the plurality of discharge fins 220 are stripes of stripes spaced apart from each other in a direction in which the wind of the blowing fan 160 flows. It is desirable to have a shape.

Here, the heat sink 210 and the plurality of discharge fins 220 are located inside the heat passage.

The heat sink 210 of the heat dissipation plate 200 can be attached to the entire area of the rear surface of the flat panel lighting apparatus 110, and quickly releases a plurality of heat release fins from the rear surface of the flat panel lighting apparatus 110. Forward to 220.

In addition, the heat transferred to the plurality of discharge pins 220 may be quickly released into the heat path by the wind blown from the blowing fan 160 to promote heat collection.

Referring to FIG. 7, in the present invention, agricultural products may be placed in trays 301 and 302 and stored in the agricultural product storage room 100.

In this case, the trays 301 and 302 may be stacked according to the size of the agricultural product storage room 100 to store a large number of agricultural products. In this case, the agricultural products accumulated in the trays 301 located in the lower state of the trays 301 and 302 are stacked in the LED light. Since the freshness may be reduced by not being irradiated with each other, the LED cell 115 including red, green, and blue light sources and near-infrared light sources may be installed on the bottom of the upper tray 302 stacked on the lower tray 301.

8 is a flowchart of a method of driving a light fusion storage warehouse according to a first embodiment of the present invention, and FIG. 9 is a flowchart of a method of driving a light fusion storage warehouse according to a second embodiment of the present invention.

In the method of driving the light-fusion storage warehouse according to the first embodiment of the present invention, first, the agricultural products are stored in the agricultural product storage room as shown in FIG. 8 (S100).

Thereafter, light is irradiated to the agricultural product from a flat panel lighting apparatus provided with a plurality of LEDs spaced apart from the ceiling of the agricultural product storage room (S110).

Then, the temperature inside the agricultural product storage room is measured (S120), it is determined whether the measured temperature is less than or equal to the set temperature (S130), and when the measured temperature is less than or equal to the set temperature, the air conditioner is driven to drive the flat lighting device. Collecting heat generated from the back of the plurality of LEDs of the discharged into the agricultural product storage room (S140).

In the method of driving a light-fusion storage warehouse according to the second embodiment of the present invention, as shown in FIG. 9, first, the agricultural products are stored in the agricultural product storage room (S200), and the flat plates provided with a plurality of LEDs spaced apart from the ceiling of the agricultural product storage room. After irradiating the light with the agricultural products in the lighting device (S210), the humidity inside the agricultural product storage room is measured (S220),

Thereafter, it is determined whether the measured humidity is greater than or equal to the set humidity (S230), and when the measured humidity is greater than or equal to the set humidity, an air conditioner is driven to collect heat generated from the back of the plurality of LEDs of the flat panel lighting apparatus. Discharge into the produce storage room (S240).

Therefore, the inside of the agricultural product storage room is convection dried by the discharged heat.

In the present invention, the humidity is also measured when the temperature is measured in the step 'S120' of the first embodiment, and when it is determined whether the measured temperature in the 'S130' is below the set temperature, it is determined whether the measured humidity is greater than or equal to the set humidity. When the temperature measured in step S140 is equal to or less than the set temperature, or when the measured humidity is equal to or greater than the set humidity, the driving method of the light fusion storage warehouse of the third embodiment may be configured to drive the air conditioning apparatus.

While the present invention has been illustrated and described with reference to certain preferred embodiments, the invention is not limited to the embodiments described above and is commonly understood in the art to which the invention pertains without departing from the spirit of the invention. Various changes and modifications will be possible by those who have the same.

100: agricultural product storage room 110: flat panel lighting equipment
120: temperature sensor 130: humidity sensor
190: controller

Claims (11)

A produce storage room in which produce is stored therein;
A flat panel lighting device provided with a plurality of LEDs spaced apart from the ceiling of the agricultural product storage room and irradiating light to the agricultural products;
An air conditioner that collects heat generated from the back of the plurality of LEDs of the flat panel lighting apparatus and discharges the heat into the agricultural product storage room;
A temperature sensor for measuring a temperature inside the agricultural product storage room; Humidity sensor for measuring the humidity in the agricultural product storage room;
A control device for controlling the air conditioning apparatus when the temperature measured by the temperature sensor is lower than or equal to a preset temperature or when the humidity measured by the humidity sensor is higher than or equal to a set humidity; And
And a heat dissipation plate attached to the rear surface of the flat panel lighting apparatus.
The heat dissipation plate is a heat sink attached to the rear surface of the flat lighting device; And a plurality of discharge pins protruding from the heat sink,
The plurality of discharge pins have a stripe shape of stripes separated from each other in the direction of the wind flow of the blowing fan,
And the heat sink and the plurality of emission fins are located in a heat passage in which heat generated from the flat panel lighting apparatus is collected. The method of claim 1,
The air conditioner may include: a heat path through which the rear surface of each of the flat panel lighting apparatuses is exposed to collect heat generated from the flat panel lighting apparatus; And a blowing fan,
And a blowing fan installed at one side of the heat passage, and discharging the heat collected through the other side of the heat passage into the agricultural product storage compartment. The method of claim 2,
A light fusion storage warehouse, characterized in that the suction fan is mounted on the other side of the heat passage. The method of claim 2,
A light fusion storage warehouse, characterized in that the heat passage is implemented by the guide housing mounted on the flat panel lighting device to expose the back of each of the flat panel lighting device. The method of claim 1,
The plurality of LEDs are light fusion storage warehouse, characterized in that including a red, green, blue-based light source and a near infrared light source. The method of claim 5,
An optical fusion storage warehouse, characterized in that it comprises an ultraviolet light source in the plurality of LEDs. delete The method of claim 1,
And the control device is interlocked with the portable terminal and configured to control the air conditioning apparatus in the portable terminal. The light fusion storage of claim 1,
Light fusion storage warehouse, characterized in that it further comprises a gas sensor for detecting the ethylene generated during the decay of the produce. 10. A method of driving an optical fusion storage warehouse according to any one of claims 1 to 6, 8 and 9.
a) storing the produce in a produce storage room;
b) irradiating light to the produce in a flat lighting device having a plurality of LEDs spaced apart from the ceiling of the produce storage room;
c) measuring a temperature inside the produce storage compartment;
d) determining whether the measured temperature is below a set temperature; And
e) when the measured temperature is less than the set temperature, the air conditioner is driven to be attached to the rear surface of the flat panel lighting apparatus, and the plurality of heat dissipation plates are located inside a heat passage in which heat generated from the flat panel lighting apparatus is collected. Collecting heat generated from the back of the LED of the agricultural product storage compartment and discharging into the interior; drive method of a light fusion storage warehouse comprising a. 10. A method of driving an optical fusion storage warehouse according to any one of claims 1 to 6, 8 and 9.
a) storing the produce in a produce storage room;
b) irradiating light to the produce in a flat lighting device having a plurality of LEDs spaced apart from the ceiling of the produce storage room;
c) measuring humidity inside the produce storage chamber;
d) determining whether the measured humidity is greater than or equal to a set humidity; And
e) when the measured humidity is equal to or greater than a set humidity, the air conditioner is driven to be attached to the rear surface of the flat panel lighting apparatus, and the plurality of heat dissipation plates are located inside a heat passage in which heat generated from the flat panel lighting apparatus is collected. Collecting heat generated from the back of the LED of the agricultural product storage compartment and discharging into the interior; drive method of a light fusion storage warehouse comprising a.

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