KR20060060362A - Refrigerator for grain with evaporator installed in receiving part - Google Patents

Abstract

Provides a refrigerator in which the evaporator is installed in the inside of the evaporator to remove moisture and condensation even when deviations from the left and right sides occur in the evaporator installed in the receiver and to forcibly remove water from the receiver so as not to be affected by the external environment. do.

Receiving unit is installed in the space for storing the object to be refrigerated in the refrigerator to achieve the above object; A vertical rod passing vertically through the inside of the accommodation portion; An evaporator accommodated in the accommodation part and having a winding part spirally wound around the vertical rod; Heating means installed in the receiving portion; Disclosed is a technical configuration including a control unit for heating the heating means under preset conditions.

Heater, Receptacle, Spiral Tube, Temperature Sensor

Description

Refrigerator with evaporator installed in the refrigerator {refrigerator for grain with evaporator installed in receiving part}

1 is a partially cutaway perspective view of a refrigerator to which an embodiment of the present invention is applied.

Figure 2 is an assembled perspective view for explaining the refrigerator of one embodiment of the present invention.

3 is a cross-sectional view illustrating a refrigerator of one embodiment of the present invention.

4 is a block diagram illustrating an operation of an embodiment of the present invention.

The present invention relates to a refrigerator in which an evaporator is installed at the center of a storage space, and more particularly, by installing an evaporator at the center of the storage space and a receiving tube for accommodating the evaporator therein to uniformly distribute cold air therein. It is about a refrigerator.

Conventional refrigerators have an evaporator installed on the wall, which prevents the cooling of the object, especially grains. It is filed in patent application 2003-19092 by the same applicant of the present application that it is advantageous to be installed. In addition, the patent application describes that the evaporator is accommodated in the receiver rather than the grain directly contacts the evaporator, the contact of the grain in the receiver is effective in preventing condensation.

In order to prevent the receiver from condensation or freezing with respect to the above-described invention, the improved technology has been filed again by the applicant in the patent application 2003-100422 (currently unpublished state).

The technical configuration of the Patent Application No. 2003-100422 is to suppress condensation and freezing due to the material properties of the receiver and the arrangement of the evaporator, but there is a problem that the arrangement of the evaporator in the receiver must be precisely balanced and installed at an external temperature. Problems affected by humidity, humidity, and the like existed.

The present invention was devised in view of the above problems, and an object of the present invention is to remove freezing and condensation even when left and right deviations occur in an evaporator installed in a receiver, and to prevent the external environment from being affected. It is to provide a grain refrigerator is installed in the evaporator to remove the water in the furnace receiver.

Another object of the present invention is to reduce energy by cooling the compressor installed in the lower part of the receiver with water formed by the water formed in the receiver, and to reduce the manufacturing cost by reducing the cooling device such as a cooling fan.

Features of the present invention for achieving the above object is a receiving unit which is installed in the space in which the refrigeration object in the refrigerator is stored; A vertical rod passing vertically through the inside of the accommodation portion; An evaporator accommodated in the accommodation part and having a winding part spirally wound around the vertical rod; Heating means installed in the receiving portion; It includes a control unit for heating the heating means in a predetermined condition.

In the present invention, it is preferable that the side portion of the accommodating portion has a cylindrical shape, and a cushioning material having elastic force is provided in the side portion and the evaporation period.

In addition, the lower plate forming the bottom surface of the receiving portion in the present invention is made of a disc formed with a through hole in the center, spaced apart in the outer circumferential inner side of the disc is formed with a protrusion protruding upward along the circumferential direction, the side bottom surface Is installed between the outer periphery of the lower plate and the protrusion, it is preferable that the vertical rod is coupled to the vertical rod and the lower plate by a coupling means through the through hole of the lower plate.

In addition, in the present invention, the heater is preferably installed inside the receiving portion.

In addition, the present invention preferably further comprises a cooling water guide tube installed in the lower portion of the receiving portion in order to discharge the water generated in the receiving portion to the outside.

In the present invention, it is preferable that the elastic rod having elasticity is inserted into the vertical rod and the spiral portion is wound around the outer side of the elastic tube.

In the present invention, the accommodation tube further includes a temperature sensor installed to measure the temperature, it is preferable that the control unit is operated according to the temperature and preset conditions detected by the temperature sensor.

In addition, in the present invention, the preset condition is preferably heating the heater when the temperature detected by the temperature sensor is equal to the preset temperature stored in the control unit.

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

1 is a partially cutaway perspective view of a refrigerator to which an embodiment of the present invention is applied, FIG. 2 is an assembled perspective view illustrating a refrigerator of an embodiment of the present invention, and FIG. 3 is a view illustrating a refrigerator of an embodiment of the present invention. It is a cross section.

Inside the housing (1) of the refrigerator, a plate (2) having a through hole formed at the center thereof is horizontally fixed to the housing (1), and the upper part of the plate (2) has a grain storage unit (5) in which a cooling object, especially grain, is stored. ) Is formed, and a discharge container 4 containing grains discharged through the through hole of the diaphragm 2 is installed on the upper surface of the partition 6 directly below the through hole. The discharge container 4 is placed in a movable state on an upper surface of the partition 6, and a compressor 7 is installed in the space of the partition 6 and the partition 9. The through-hole of the diaphragm 2 is connected by the discharge handle 3 is provided with a discharge portion (not shown) for sealing or opening the through-hole. 1 shows that the through hole is opened when the discharge handle 3 is pushed to the right, and the grain stored in the grain storage unit 5 descends to the discharge container 4 installed under the through hole through the through hole. In addition, the upper part of the center of the diaphragm 2 is provided with an evaporator and an accommodating part 100 for accommodating the evaporator therein.

The diaphragm 2 is formed to be inclined toward the center through hole 21 so that the grain stored in the grain storage part 5 can be discharged downward through the through hole 21, and the horizontal surface is formed from four corners. Supports 22, 23, and 24 on the upper surface are welded and installed. At this time, the support 22 is installed between the corners of the diagonal, one end of the support 23 is coupled to the corner, the other end is vertically coupled to the support 22. In addition, one end of the support 24 is coupled to the left edge, and the other end is coupled to the support 22. In the center of the support 22 connecting both edges, the vertical rod 101 is vertically welded. Threads are formed on the lower and upper ends of the vertical rods 101 by a predetermined length. The receiving rod lower plate 110 having a through hole formed in the center is inserted into the vertical rod 101. At this time, the receiving portion lower plate 110 is formed with a projection jaw 111 formed in the circumferential direction between the through hole and the outer peripheral surface of the center, when the receiving portion lower plate 110 is fitted to the vertical rod 101, washer 104 And nut 102 is filled to couple the receiving portion lower plate 110 to the vertical rod (101). At this time, the bottom of the accommodating part lower plate 110 is fixed to the accommodating part lower plate 110 by being seated on the connection part of the support 22 and the support 23, the connection part of the support 22 and the support 24.

In addition, the guide tube 105 is inserted into the vertical rod 101 is installed to the inside of the protruding jaw 111 of the lower plate 110 of the evaporator receiving portion, the upper portion of the guide tube 105, sponge material elastic sponge tube 106 is inserted and installed. The guide tube 105 fixes and supports the sponge tube 106 when the evaporator spiral 132 is fitted along the outer circumference of the sponge tube 106. In addition, the outer surface of the cylindrical receiving portion 120 is inserted into the outer side of the protruding jaw 111 of the lower plate 110 of the receiving portion is inserted and installed. At this time, the lower portion of the receiving unit 110, the guide tube 105, the receiving unit exterior 120, the receiving unit upper tube 140, the induction tube 144, which will be described later is made of a solid material is not made, but preferably Preferably it is made of a far-infrared radiator material. In particular, ceramic or ocher material is more preferable because it can contain a certain amount of moisture while emitting far-infrared rays to absorb moisture that may be generated during the cooling process. The evaporator 107 is provided outside the sponge tube 106. The evaporator 107 is composed of a straight portion 131 downwardly from top to bottom and a spiral portion 132 directed upward from the bottom of the straight portion 131. The upper end of the straight portion 131 is connected to the capillary tube 133, the refrigerant flows into the straight portion 131 from the capillary tube 133.

In addition, the outer side of the spiral portion 132 is provided between the insulating tube 150 made of an insulating material and the receiving portion exterior 120, a heater 160 made of a planar heating element or nichrome wire is installed in the electricity supplied from the outside. Is heated. In addition, a temperature sensor 170 is installed between the housing part exterior 120 and the insulation tube 150 to output the sensed temperature to the controller.

In addition, the accommodating part lower plate 110 is provided with a cooling water guide tube 180 to allow the human body to flow into the compressor 7 in the accommodating part.

In addition, the upper surface of the receiving portion exterior 120 is provided with a receiving portion upper tube 140. Receiving portion upper tube 140 is the bottom surface is open, the side is made of a cylindrical tube, the bottom surface of the cylindrical tube is treated with the upper surface of the receiving portion exterior 120, a through hole of a predetermined size is formed on the side, the upper surface Is made of a curved shape but the through-holes through which the vertical rods 101 are formed in the center. The vertical rod 101 is passed through the upper surface through hole of the receiving portion upper tube 140, and the discharge tube 134 and the capillary tube 133 connected to the upper end of the spiral portion 132 of the evaporator 107 pass through the side portion. To the ball 141. After discharging the discharge tube 134 and the capillary tube 133 to the outside, the washer 142 and the nut 143 are fixed to the vertical rod 101 by coupling. After connecting the connection pipe to the discharge pipe 134 and withdraws to the outside of the housing through the induction pipe 144, the induction pipe 144 is inserted into the through-hole 141 of the upper portion of the receiving portion 140 and coupled. In addition, since the upper end of the vertical rod 101 protrudes from the upper surface through hole of the accommodating part upper tube 140, and the nut 143 is exposed to the outside, the cap 145 may be covered to cover these things. At this time, the cap 145 is bonded to the receiving portion upper tube 140 by an adhesive.

4 is a block diagram illustrating an operation of an embodiment of the present invention.

The controller 40 shown in FIG. 4 is preferably a microprocessor provided with a data storage unit, a set temperature and a set time are stored in the data storage unit, and an analog input from the temperature sensor 170 is input to the control unit 40. An analog / digital signal converter 42 for converting a signal into a digital signal is connected, and a control valve for controlling a fluid flowing into the heater driver 43 for driving the heater 171 and the evaporator 132 (not shown) The control valve driving unit 45 for driving the time) and the input unit 47 for inputting the set temperature and the set time to the control unit 40 are connected.

The temperature sensed in the accommodating part 100 by the temperature sensor 170 during operation of the refrigerator is converted into a digital signal by the analog / digital signal converter 42 and input to the controller 40. When the control unit 40 becomes equal to the temperature input from the analog / digital signal converter 42 and the low limit set temperature of the data storage unit, the control valve driving unit 45 is operated so that the control valve 46 is connected to the evaporator 132. The flow path is blocked to prevent flow and the heater driver 43 is controlled so that the heater 171 is heated.

When the temperature input to the control unit 40 by the temperature sensor 170 during heating of the heater 171 reaches a high set temperature, the control unit 40 controls the control valve driving unit 45 to allow the fluid to flow again to the evaporator 132. ) To operate the control valve 46 and to control the heater driver 43 to stop the heating of the heater 171.

In the above embodiment, the temperature sensor 170 may be used to predict freezing and condensation, or may be configured using various sensors including a humidity sensor.

In addition, when a low set temperature is sensed by the temperature sensor 170, a time for heating the heater 171 only for a set time may be fixed, and a method of periodically operating the heater without measuring temperature. In addition, various methods for removing water in the accommodation part 100 may be implemented.

In addition, although the embodiment has been described as a refrigerator, the evaporator 132 does not operate in winter according to a value for setting the high set temperature and the low set temperature. can do.

According to the present invention having the above object and configuration, it is possible to remove the moisture in the accommodating part accommodating the evaporator therein, thereby eliminating freezing and condensation in the refrigerator, thereby keeping the interior clean at all times.

In addition, according to the present invention it is possible to reduce the energy by cooling the compressor installed in the lower portion of the receiver with water formed by the water formed in the receiver, it is possible to reduce the production cost by reducing the cooling device such as a cooling fan.

Moreover, according to this invention, since the freezing and dew condensation of a accommodating part can be eliminated by a heater, the construction of the spiral tube in a accommodating part becomes convenient.                     

In addition, since the vertical bar is fixed to the diaphragm and the receiving portion is fixed by the vertical bar, its structure is firm.

Claims (8)

Receiving unit is installed in the space where the object to be stored in the refrigerator; A vertical rod passing vertically through the inside of the accommodation portion; An evaporator accommodated in the accommodation part and having a winding part spirally wound around the vertical rod; Heating means installed in the receiving portion; And a control unit for heating the heating means under preset conditions. The refrigerator according to claim 1, wherein the side of the accommodating part has a cylindrical shape, and a cushioning material having an elastic force is installed inside the side and the evaporation period. According to claim 1, wherein the bottom plate forming the bottom surface of the receiving portion is made of a disc formed with a through hole in the center, spaced apart in the outer circumference of the disc is formed protruding portion protruding upward along the circumferential direction, the side portion The bottom surface is installed between the outer periphery of the lower plate and the protrusion, the refrigerator is installed in the evaporator, characterized in that the vertical rod is coupled to the vertical rod and the lower plate by a coupling means through the through hole of the lower plate. The refrigerator according to claim 1, wherein the heater is installed in the accommodating part. The evaporator according to any one of claims 1 to 3, further comprising a cooling water guide tube installed in the lower part of the accommodating part to discharge the water generated in the accommodating part to the outside. Refrigerator. The refrigerator according to claim 1, wherein an elastic tube having elasticity is inserted and installed in the vertical rod, and the spiral portion is wound on an outer side of the elastic tube. The evaporator of claim 1, further comprising a temperature sensor installed in the accommodation tube to measure a temperature, the controller being operated according to a temperature detected by the temperature sensor and a preset condition. Refrigerator installed in the building. The refrigerator according to claim 7, wherein the preset condition is to heat the heater when the temperature detected by the temperature sensor is equal to the preset temperature stored in the controller.

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