KR101688809B1 - defrost device - Google Patents

Abstract

The present invention relates to a defrosting device of a new structure, capable of minimizing an inner temperature of a main body from being increased during a defrosting work. According to the present invention, the defrosting device is able to effectively prevent the inner temperature of the main body (10) from being increased due to heat, water, or steam generated when frost is removed using a heater (40) as an evaporation case is installed in the outside of an evaporator (21). More specifically, the evaporation case (30) comprises: a case main body (31) having an air drain (31a) on a front and a rear surface; an opening and closing damper (32) installed in the air drain (31a); and an opening and closing unit (33) enabling the opening and closing damper (32) to open and close the air drain (31a) by being connected to the opening and closing damper (32). The air drain (31a) is selectively opened and closed, thus the frost being able to effectively be removed.

Description

Defrost device

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a defrost apparatus of a new structure capable of minimizing the temperature rise inside a main body during a defrost operation.

In general, as shown in FIG. 1, a refrigeration warehouse used for storing foodstuffs and the like for a long period of time includes a main body 10 having a loading unit therein, .

At this time, the main body 10 is made of a material having a high heat insulating property, and a door 11 is provided at one side to open the door 11 and load the object inside.

The cooling device 20 includes an evaporator 21 connected to the pipe 24 by a pipe 24 and a compressor 22 and a condenser 23. The evaporator 21 is installed inside the main body 10, The compressor (22) and the condenser (23) are provided outside the main body (10).

The structure of the main body 10 and the cooling device 20 is generally used, and a detailed description thereof will be omitted.

On the other hand, when the main body 10 is cooled by using the cooling device 20, the periphery of the evaporator 21 becomes caustic.

However, when the evaporator 21 has a malaise effect, the performance of the evaporator 21 deteriorates.

Therefore, in the case of such a refrigeration warehouse, the defrosting operation is performed to remove the malaise caused by the evaporator 21 in a state where the cooling device 20 is stopped at regular intervals.

To this end, the evaporator 21 is provided with a heater. When the heater is turned on while the cooling device 20 is stopped, the malfunction of the cooling device 20 is melted and removed.

Therefore, the sex of the evaporator 21 can be conveniently removed without damaging the evaporator 21.

However, when the malaise is removed in this manner, the temperature inside the main body 10 is raised by the large amount of steam, water, and the heat of the heater itself, which is generated while the malaise melts. As a result, There is a problem that an adverse effect may occur.

Therefore, there is a need for a new method to solve such a problem.

The evaporator (21) of the freezing storage is installed on the inner surface of the main body (10).

Patent No. 10-0821909, Registration Utility Model No. 20-0443373,

SUMMARY OF THE INVENTION It is an object of the present invention to provide a defrost apparatus with a new structure capable of minimizing the temperature rise inside the main body during defrosting operation.

In order to accomplish the above object, the present invention provides a refrigerator comprising: a main body having a built-in portion formed therein; and a cooling device installed in the main body to freeze air inside the main body, The cooling device 20 is composed of an evaporator 21 connected to the pipe 24 by a pipe 24 and a compressor 22 and a condenser 23. The evaporator 21 is connected to a freezing storage An evaporator case 30 provided to surround the outside of the evaporator 21 and a heater 40 provided in the evaporator case 30 or in the evaporator 21. [ A defrost apparatus is provided.

According to another aspect of the present invention, the evaporator case 30 includes a case body 31 having front and rear air openings 31a, an open / close damper 32 provided in the air openings 31a, 32) for opening / closing the ventilation hole (31a) by means of the opening / closing damper (32).

According to another aspect of the present invention, the evaporator 21 is fixed to the inner ceiling of the main body 10, the evaporator case 30 is slidably coupled to the inside of the main body 10, A case main body 31 provided with an opening 31b through which the evaporator 21 passes and a case main body 31 provided at one side of the evaporator 21 and advanced to cover the periphery of the evaporator 21, A lid 38 which is coupled to the opening 31b and seals the opening 31b of the case body 31 and a lid 38 which is connected to the case body 31 and which is provided with forward and backward driving means 39 And a defrosting device for defrosting the defrosting device.

According to another aspect of the present invention, the evaporator case 30 is configured to airtightly surround the outer periphery of the evaporator 21, and is disposed outside the evaporator case 30 from the lower side of the evaporator case 30 to the outside of the main body 10 A discharge pump 35 connected to the discharge pipe 34 and a pressure sensor 36 provided in the evaporator case 30 for measuring an air pressure in the evaporator case 30, And a control means (37) for receiving a signal from the pressure sensor (36) and for controlling the operation of the discharge pump (35), wherein the control means (37) And the discharge pump (35) is operated when the internal air pressure of the evaporator case (30) rises to a predetermined pressure or more.

According to the defrosting apparatus of the present invention, an evaporation case is provided on the outside of the evaporator 21 so that the inside of the main body 10 can be heated by steam, water or heat generated when the heater 40 is used to remove the malaise. There is an advantage that the temperature can be effectively prevented from rising.

Particularly, the evaporator case 30 has a case body 31 having front and rear air openings 31a, an open / close damper 32 provided in the air openings 31a, and an opening / closing damper 32 connected to the open / The damper 32 is composed of an opening and closing means 33 for opening and closing the ventilation hole 31a and selectively opening and closing the ventilation hole 31a.

1 is a plan view showing a conventional freezing warehouse,
FIG. 2 is a plan view showing a freezing warehouse provided with a defrosting device according to the present invention,
3 is a side sectional view showing a defrost apparatus according to the present invention,
4 is a side sectional view showing the action of the defrosting device according to the present invention,
Fig. 5 is a side cross-sectional view showing a second embodiment of the defrost apparatus according to the present invention,
6 is a front sectional view showing a third embodiment of the defrost apparatus according to the present invention,
7 is a side sectional view showing a third embodiment of the defrost apparatus according to the present invention,
8 is a reference diagram for explaining the action of the third embodiment of the defrost apparatus according to the present invention.

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

2 to 4 illustrate a defrosting apparatus according to the present invention. The defrosting apparatus is provided in a freezing warehouse and is configured to remove the malaise caused by the evaporator 21.

In detail, the freezing storage unit includes a main body 10 having a loading unit therein and a cooling device 20 provided in the main body 10 to freeze the air inside the main body 10.

The cooling device 20 includes an evaporator 21 connected to the pipe 24 by a pipe 24 and a compressor 22 and a condenser 23. The evaporator 21 is installed inside the main body 10 And the compressor (22) and the condenser (23) are provided outside the main body (10).

At this time, it is fixed to the inner ceiling of the main body 10.

That is, the evaporator 21 includes a box-shaped evaporator main body 21a connected to the pipe 24 and cooled to a low temperature by the refrigerant passing through the evaporator main body 21a, And a circulation fan 21b for passing the evaporator main body 21a from the front to the rear. The evaporator main body 21a is fixed to the inner ceiling of the main body 10.

Therefore, the inside of the main body 10 can be cooled by allowing the air inside the main body 10 to pass through the evaporator main body 21a by using the circulating fan 21b.

The defrost apparatus according to the present invention includes an evaporator case 30 provided to surround the outside of the evaporator 21 and a heater 40 provided in the evaporator 21.

The evaporator case 30 includes a case body 31 having front and rear air openings 31a and an opening and closing damper 32 provided in the air opening 31a and an opening and closing damper 32 connected to the opening and closing damper 32, (33) for opening and closing the ventilation hole (31a).

The case body 31 is formed by assembling a panel made of a heat insulating material and has a rectangular box shape with an opened upper surface. An upper end portion of the case body 31 is covered with an inner ceiling surface of the main body 10 to cover the periphery of the evaporator 21. As shown in FIG.

At this time, the ventilation holes 31a are formed in the shape of a square hole on the front and rear surfaces of the case body 31.

A discharge pipe 34 extending to the outside of the main body 10 is provided on the lower side of the case body 31 so that steam and water generated during the defrosting operation can be discharged through the discharge pipe 34 And is discharged to the outside.

The opening / closing damper 32 is formed in the form of a square panel corresponding to the ventilation hole 31a, and is vertically coupled to the case body 31 by a rotation shaft whose upper end extends in the lateral direction.

At this time, unillustrated packing is provided on the periphery of the opening / closing damper 32. When the opening / closing damper 32 is pivoted downward, the packing is brought into close contact with the circumference of the vent 31a to seal the vent 31a And is configured to be sealed.

The opening and closing means 33 uses a geared motor connected to the rotating shaft so that the opening and closing damper 32 is vertically rotated by the opening and closing means 33 to open and close the air hole 31a.

The heater 40 is provided in the evaporator main body 21a to generate heat when power is applied thereto, and to dissolve and remove the malaise caused by the evaporator 21.

A method of removing the malaise caused by the evaporator 21 using the defrosting device having the above-described structure will be described below.

4, in a state in which the opening / closing damper 32 is rotated upward by using the opening / closing means 33 to open the front and rear surfaces of the case body 31, The evaporator body 21a is cooled to a low temperature by the refrigerant passing through the evaporator body 21a and the circulation fan 21b is rotated by the circulation fan 21b 10 is cooled to a low temperature while passing through the evaporator main body 21a so that the object stored in the main body 10 is frozen.

3, the opening and closing means 33 is driven so that the opening and closing damper 32 is pivoted downward to open the ventilation hole of the case body 31, The steam generated in the evaporator main body 21a is melted and removed when the heater 40 is turned on after closing the evaporator case 31a. And then discharged through the discharge pipe 34 to the outside of the main body 10 to be removed.

According to the defrosting apparatus having the above-described configuration, the evaporation case is provided outside the evaporator 21, and the temperature inside the main body 10 due to the steam, water, or heat generated when the heater 40 is used to remove the malaise There is an advantage that it can be prevented effectively.

Particularly, the evaporator case 30 has a case body 31 having front and rear air openings 31a, an open / close damper 32 provided in the air openings 31a, and an opening / closing damper 32 connected to the open / The damper 32 is composed of an opening and closing means 33 for opening and closing the ventilation hole 31a and selectively opening and closing the ventilation hole 31a.

In this embodiment, the opening / closing damper 32 is formed in the shape of a square panel corresponding to the ventilation hole 31a, and is vertically rotatable on the case body 31 by a rotation shaft whose upper end extends in the lateral direction The shape of the opening and closing damper 32 and the structure of the opening and closing means 33 may be variously changed.

FIG. 5 shows another embodiment according to the present invention, which includes a discharge pump 35 connected to the discharge pipe 34, and a discharge pump 35 provided in the evaporator case 30 for measuring the air pressure inside the evaporator case 30 And a control means (37) for receiving signals from the pressure sensor (36) and for controlling the operation of the discharge pump (35).

The discharge pump 35 is a piston pump capable of forcibly discharging the steam and water generated while the malfunction of the evaporator 21 is melted during the defrosting operation to the outside through the discharge pipe 34, .

The pressure sensor 36 uses a general air pressure sensor. The pressure sensor 36 is configured to sense the pressure of the inside of the case when the deflating pressure is increased due to steam generated while the defrosting operation is performed.

The control means 37 receives the signal of the pressure sensor 36 and operates the discharge pump 35 when the internal air pressure of the evaporator case 30 rises above a predetermined pressure.

When the air pressure inside the evaporator case 30 is increased by the water and steam generated when the heater 40 is used to remove the sexual interferences caused by the evaporator 21, The discharge pump 35 is operated by the evaporator 37 to discharge the water and steam stored in the evaporator case 30 through the discharge pipe 34 to the outside, The air pressure in the evaporator case 30 is excessively increased due to water or steam, so that a load is applied to each part of the evaporator case 30, and water or steam can be prevented from flowing out.

That is, the evaporator case 30 is constructed so as to have a hermetic structure so as to prevent the steam generated during the defrosting operation from flowing out to the outside, that is, the inside of the main body 10.

Accordingly, when the steam or water generated while the malnutrition melts can not be discharged smoothly to the outside through the discharge pipe 34 for unintended reasons, the pressure of the steam increases the pressure inside the evaporator case 30, The steam is externally supplied to each part of the evaporator case 30 or through the gap between the vent hole 31a and the opening and closing damper 32. In this case, Can be leaked.

However, in the case of this embodiment, when the steam or water generated while melted is not discharged to the outside through the discharge pipe 34 and the air pressure inside the evaporator case 30 is increased, the control means controls the pressure sensor 36 And then discharging the water and steam to the outside through the discharge pipe 34 by operating the discharge pump 35 so that steam or water generated while the malaria is melted can be discharged to the outside of the evaporator case 30, That is, there is an advantage that it can be effectively prevented from flowing out into the main body 10.

6 to 8 illustrate a third embodiment of the present invention in which the evaporator case 30 is slidably coupled to the inside of the main body 10 and has an opening through which the evaporator 21 passes, A case body 31 provided on one side of the evaporator 21 and coupled to the opening 31b when the case body 31 is advanced to cover the periphery of the evaporator 21, A lid 38 for sealing the opening 31b of the case body 31 and a forward and rearward driving means 39 connected to the case body 31 and for moving the case body 31 back and forth.

In detail, a guide rail 12 extending in the lateral direction of the evaporator 21 is provided on the inner ceiling of the main body 10.

The case body 31 is slidably coupled to the guide rail 12 and covers the outer circumferential portion of the evaporator 21 so as to extend along the guide rail 12 to one side And is configured to be advanced along the guide rail 12 to cover the outer periphery of the evaporator 21 as shown in FIG. 6 in a state where the evaporator 21 is located at one side of the evaporator 21.

The opening 31b is formed on the circumferential surface of the case body 31 so as to be larger than the evaporator 21 on the side opposite to the direction in which the guide rail 12 extends.

The cover 38 is formed in a shape corresponding to the opening 31b and a packing is provided at the periphery of the cover 38 to seal the opening 31b with the opening 31b. And is fixed to the front.

That is, the cover 38 is coupled to the opening 31b to seal the opening 31b when the case body 31 is advanced to cover the outer periphery of the evaporator 21.

The forward and rearward driving means 39 use an electric cylinder mechanism arranged parallel to the guide rail 12 and connected to the case body 31.

The motor-driven cylinder mechanism is widely used because the drive motor provided at one side is expanded and contracted when the motor is rotated in normal and reverse directions, and a detailed description thereof will be omitted.

8, when the case body 31 is retracted to one side by using the forward and backward driving means 39, the case body 31 is retracted to one side, and the evaporator 21 is completely And is exposed to the outside.

6, when the case main body 31 is advanced by using the forward and backward driving means 39, the case main body 31 covers the entire outer periphery of the evaporator 21, And at the same time, the opening 31b formed in the case body 31 is sealed by being coupled with the lid 38.

When the case body 31 is retracted to one side, the evaporator 21 is completely exposed to the outside, so that the circulation fan 21b circulates air inside the main body 10 to cool it , It is possible to prevent a resistance from being generated in the flow of the air by the case body 31.

That is, in the case body 31 described above, an opening 31b is formed on the front and rear surfaces of the case body 31 to allow air to flow through the opening 31b. In this embodiment, however, And the evaporator 21 is completely exposed to the outside, thereby preventing the flow of the air from being disturbed.

Although the forward and backward driving means 39 exemplifies the use of the electric cylinder mechanism, various means can be used for the forward and backward driving means 39.

10. Body 20. Cooling Unit
30. Evaporator case 40. Heater

Claims (4)

And a cooling device 20 provided in the main body 10 to freeze the air inside the main body 10. The cooling device 20 is connected to the piping 24, A compressor 22 and a condenser 23. The evaporator 21 is installed inside the main body 10, and the evaporator 21 is connected to the evaporator 21,
An evaporator case 30 provided to surround the outside of the evaporator 21,
And a heater (40) provided in the evaporator case (30) or in the evaporator (21)
The evaporator case 30 hermetically surrounds the outer periphery of the evaporator 21,
A discharge pipe 34 extending from the lower side of the evaporator case 30 to the outside of the main body 10,
A discharge pump 35 connected to the discharge pipe 34,
A pressure sensor (36) provided in the evaporator case (30) and measuring the air pressure inside the evaporator case (30)
Further comprising control means (37) for receiving a signal from the pressure sensor (36) and for controlling the operation of the discharge pump (35)
When the air pressure inside the evaporator case 30 is increased due to the vapor or water generated while the malaise is melted and is not discharged to the outside through the discharge pipe 34, the control means senses this through the pressure sensor 36 , The discharge pump 35 is operated to discharge water and steam to the outside through the discharge pipe 34 so as to prevent the steam or water generated while the malaria is melted from flowing into the main body 10 Wherein the defrosting device comprises:
The method according to claim 1,
The evaporator case (30)
A case body 31 having front and rear air vents 31a,
An opening and closing damper 32 provided in the ventilation hole 31a and an opening and closing means 33 connected to the opening and closing damper 32 for opening and closing the ventilation hole 31a. Defrosting device.
The method according to claim 1,
The evaporator (21) is fixed to the inner ceiling of the main body (10)
The evaporator case (30)
A case main body 31 slidably coupled to the inside of the main body 10 and having an opening 31b through which the evaporator 21 passes,
The cover body 31 is provided at one side of the evaporator 21 and is coupled to the opening 31b to cover the opening 31b of the case body 31 when the case body 31 is advanced to cover the periphery of the evaporator 21, (38)
(39) connected to the case body (31) and for moving the case body (31) forward and backward.
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