KR200331817Y1 - Refrigeration system for rice storage house - Google Patents

Abstract

The present invention relates to a refrigerating system for rice storage, the purpose of which is to conduit the evaporator pipe of the refrigerating system on the outer circumferential surface of the storage chamber, the heat exchange is made to correspond to the amount of rice stored in the storage chamber, In order to minimize the power consumption according to the storage of the rice at a low temperature, the object is a storage chamber installed in the housing, and a vacuum pump for automatically storing the rice according to the discharge of air in the storage chamber In addition to the control, the rice reservoir configured to have a control unit for automatically withdrawing the rice stored in the storage chamber, the rice sensing sensor is provided for detecting the rice stored in the inner middle of the storage chamber, The circulation of the refrigerant to enable to correspond to the value sensed by the rice detection sensor It is achieved by including a refrigeration system provided on one side of the bottom surface of the housing to transfer the low temperature heat to the storage chamber side.

Description

Refrigerating System for Rice Storage {REFRIGERATION SYSTEM FOR RICE STORAGE HOUSE}

The present invention relates to a refrigerating system for rice storage, and more particularly, it is wound on an outer circumferential surface of a storage chamber provided for storing rice, and the refrigerant is circulated to correspond to the amount of stored rice so that the rice can be stored at low temperature. A refrigeration system for rice storage.

As is well known, rice is known to be of the highest quality when stored in low humidity and low temperature spaces.

In particular, when the temperature or humidity of the space where the rice is stored, the rice worms are generated in the space, the rice worms eat the rice, and serves to significantly reduce the quality of the rice.

Recently, the rice is automatically stored to the storage chamber in the housing using a vacuum pump, and the rice stored in the storage chamber can be stored at a low temperature due to heat exchange through an evaporator pipe of the refrigerating system. Rice reservoirs are being developed.

However, such a conventional rice reservoir drives a refrigeration system in order to maintain a low temperature state of rice stored in a storage chamber, in which the evaporator pipe piped from the condenser is conduited to the entire outer circumferential surface of the storage chamber as a single unit. Therefore, there was a problem that consumes a lot of power.

In order to solve the above problems, the present invention conduits an evaporator pipe of the refrigerating system on the outer circumferential surface of the storage chamber, thereby allowing heat exchange to correspond to the amount of rice stored in the storage chamber. The aim is to provide a refrigeration system for rice storage that can minimize power consumption by storing rice at low temperature.

1 is a perspective view showing a rice reservoir equipped with a refrigeration system according to the present invention

Figure 2 is a cross-sectional view showing a rice reservoir equipped with a refrigeration system according to the present invention

Figure 3 is a schematic diagram showing a rice storage refrigeration system according to the present invention

* Description of the symbols for the main parts of the drawings *

10: rice storage 20: vacuum pump

30: storage chamber 40: transfer member

50: drive motor 60: drawer

70: rice detection sensor 80: refrigeration system

The present invention for achieving the above object is to control the storage chamber installed in the interior of the housing, the vacuum pump for automatically storing the rice in accordance with the discharge of air in the storage chamber, as well as the rice stored in the storage chamber A rice reservoir having a control unit provided for automatically withdrawing a rice, comprising: a rice detecting sensor provided to detect rice stored in an inner middle portion of the storage chamber, and a value detected by the rice detecting sensor; It characterized in that it comprises a refrigeration system provided on one side of the bottom surface of the housing to transfer the low temperature heat to the storage chamber side to enable the circulation of the refrigerant.

The refrigerating system includes a compressor installed at one side of the vacuum pump, a condenser connected through the compressor and a refrigerant circulation hose for condensation, and a refrigerant circulated from the condenser in one or two directions under control of the controller. Upper and lower evaporator pipes connected to each other through a stamping motor valve and the stamping motor valve and a refrigerant circulation hose, and having an expansion valve in the middle so as to prevent condensation on the outer circumferential surface of the storage chamber; A refrigeration system for rice storage, characterized in that the accumulator is installed to prevent the inflow of liquid refrigerant into the compressor during the refrigerant circulation hose connecting the upper and lower evaporator pipes to the compressor and to control the cooling rate. .

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

Prior to explaining the drawings, the basic concept of the present invention is to wrap the evaporator pipe on the outer circumferential surface of the storage chamber for storing the rice, the refrigerant is circulated to correspond to the amount of rice stored in the storage chamber to always keep the rice at a low temperature In addition to being able to save, it is also found to be able to reduce power consumption.

Next, with reference to the accompanying drawings will be described a preferred embodiment of the rice cellar refrigeration system according to the present invention having the above basic concept.

1 is a perspective view showing a rice reservoir equipped with a refrigeration system according to the present invention, Figure 2 is a cross-sectional view showing a rice reservoir equipped with a refrigeration system according to the present invention, Figure 3 according to the present invention A schematic diagram showing a refrigeration system for a rice cellar.

As shown, the rice reservoir 10 is formed to be opened and closed by a door, and the inside of the lower chamber 13 of the housing 14 divided into upper and lower chambers 12 and 13 by a diaphragm 11. Not shown for automatically suctioning and filling the vacuum pump 20 having the air suction portion 20a installed in the drive and the rice according to the discharge of the air to correspond to the driving of the vacuum pump 20 A discharge chamber 31 and a filling hose 32 having a mesh member are provided to communicate with the inside, and a lower portion of the lower portion is provided at one side of the inside of the storage chamber 30 for inflow of rice. Rotated in the rice discharge guard member 41 is opened and installed, the outer peripheral surface of the transfer member 40 is formed with a rice transfer blade (40a), the lower end of the transfer member 40 is connected to the belt Drive motor 50 and the upper front of the housing 14 to be driven to rotate the transfer member 40 The drawer 60 is provided in the upper chamber 12 to be withdrawn to receive and withdraw the rice transported by the rotation of the transfer member 40, and stored in the inner middle of the storage chamber 30 A rice sensor 70, which is an optical sensor provided to detect rice, and a refrigerating system 80 provided to heat transfer to the storage chamber 30 in correspondence to the sensed value of the rice sensor 70. And, while controlling the vacuum pump 20 and the drive motor 50 on the front upper portion of the housing 14, and receiving the sensed value of the rice sensor 70 for the refrigeration system (80) Control unit 90 having a plurality of buttons so as to be controllable (see FIGS. 1 and 2).

As shown in FIGS. 1 to 3, the refrigerating system 80 includes a compressor 81 installed in a driving chamber 92 formed at one side of the vacuum pump 20, a circulation of the compressor 81, and a refrigerant for condensation. The condenser 82 connected through the hose 82a and the stamping motor valve 83 provided to circulate the refrigerant circulated from the condenser 82 in one or two directions corresponding to the control of the controller 90. ) Is connected to the stamping motor valve 83 and the refrigerant circulation hoses 84a and 85a, and has expansion valves 84b and 85b en route to prevent the condensation on the outer circumferential surface of the storage chamber 30. The liquid phase to the compressor 81 in the middle of the refrigerant refrigerant hose 81a for connecting the upper and lower evaporator pipes 84 and 85 and the upper and lower evaporator pipes 84 and 85 and the compressor 81. Accumulator installed to prevent coolant flow and control cooling rate It consists of 86.

Here, the upper and lower evaporator pipes (84, 85) of the refrigeration system (80) is a plastic member formed of ocher resin from the outer surface of the storage chamber 30 to prevent condensation, as shown in FIG. An aluminum plate member is provided, wherein the plastic member and the aluminum plate member are wound by filling an insulating material for preventing heat transfer to outside air on the outer circumferential surface of the aluminum plate member, which is spaced about 2 mm apart.

And, the outer surface of the aluminum plate member is provided with a temperature sensor 95 for sensing the temperature in the storage chamber (30).

In addition, the optimum temperature in the storage chamber 30 according to the operation of the refrigeration system 80 is controlled by the controller 90 to maintain approximately 11 ° C.

When the rice is to be stored in the rice storage having the refrigeration system made in this way, as shown in the accompanying drawings, Figures 1 to 3 by opening the door to be opened and closed on one side of the housing 14 is stored After inserting the filling hose 32, one end of which is in communication with the upper side of the chamber 30 to the rice bag, and operating the button provided on the control unit 90, the lower chamber 13 of the housing 14 Drive the vacuum pump 20 installed in.

The air in the storage chamber 30 is discharged through the discharge hose 31 by the driving of the drive pump 20, and thus the rice is stored to the storage chamber 30 through the filling hose 32.

When stored in the storage chamber 30 as described above, the rice detecting sensor 70 detects the storage amount of the rice, that is, the storage height, and applies it to the controller 90. Subsequently, the refrigeration system 80 is driven by operating the control unit 90 to store the rice stored in the storage chamber 30 while maintaining the low temperature state.

The refrigerant is driven by the refrigerating system 80 through the evaporator 82, the stamping motor valve 83, and the expansion valves 84b and 85b in a high-temperature and high-pressure refrigerant state by the compressor 81, The refrigerant is circulated through the upper and lower evaporator pipes 84 and 85 wound up and down of the storage chamber 30, and heat is transferred to the storage chamber 30 by the circulation of the refrigerant to the storage chamber 30. Stored rice is stored at low temperatures.

On the other hand, when the stored rice is withdrawn a certain amount, that is, withdrawn below the middle portion of the storage chamber 30, the sensor for detecting the rice 70 is applied to the control unit 90 side, the corresponding to the applied value The controller 90 controls the stamping motor valve 83 of the refrigerating system 80.

That is, in both directions of the stamping motor valve 83 so that the refrigerant circulated to the upper and lower evaporator pipes 84 and 85 wound around the outer circumferential surface of the storage chamber 30 is circulated only to the lower evaporator pipe 85 side. The refrigerant circulation hose 84a connected to the upper evaporator pipe 84 is blocked.

Therefore, the rice stored in the storage chamber 30 is stored in a low temperature state by the refrigerant circulated through the lower evaporator pipe (85).

According to the rice storage refrigeration system according to the present invention made as described above, by winding the upper and lower evaporator pipe to the upper and lower parts based on the middle portion of the outer peripheral surface of the storage chamber for storing the rice to be installed in the storage chamber to sense the rice By purifying the refrigerant toward the upper and lower evaporator pipes corresponding to the value detected from the sensor, the rice is always stored at a low temperature to prevent the rice from being damaged from rice worms and circulate the refrigerant to correspond to the rice stored in the storage chamber. It is possible to reduce the power consumption according to the operation of the refrigeration system.

Claims (2)

In addition to controlling the storage chamber 30 installed inside the housing 14 and the vacuum pump 20 for automatically storing rice as the air in the storage chamber 30 is discharged, the storage chamber ( In the rice cellar comprising a control unit 90 for automatically withdrawing the rice stored in 30), A rice detecting sensor 70 provided to detect rice stored in an inner middle portion of the storage chamber 30; It is provided on one side of the bottom surface of the housing 13 to transfer the low temperature heat to the storage chamber 30 side to enable the circulation of the refrigerant to correspond to the value detected by the rice sensor for sensing 70 Refrigerating system (80); refrigerating system for rice storage, characterized in that comprising a. The method of claim 1, wherein the refrigeration system 80, A compressor 81 installed at one side of the vacuum pump 20; A condenser 82 connected to the compressor 81 and a refrigerant circulation hose 82a for condensation; A stamping motor valve 83 provided to circulate the refrigerant circulated from the condenser 82 in one or two directions corresponding to the control of the controller 90; Is connected through the stamping motor valve 83 and the refrigerant circulation hoses (84a, 85a), the expansion valve (84b, 85b) in the middle is wound around the outer circumferential surface of the storage chamber 30 to prevent condensation, Bottom evaporator pipes (84, 85), During the compressor refrigerant circulation hose 81a connecting the upper and lower evaporator pipes 84 and 85 and the compressor 81, the liquid refrigerant is prevented from entering the compressor 81 and installed for controlling the cooling rate. Refrigerant system for rice storage, characterized in that consisting of accumulators (86).