KR940009566B1 - Open showcase - Google Patents

Abstract

The apparatus prevents the temp of the showcase interior from abruptly going up during the defrosting process, and also prevents an air outlet from getting freezed after the defrosting process by separating the heated defrosting air from the low temp air. The apparatus comprises a 1st blowing fan motor (3) circulating outer-layered air; a 2nd blowing fan motor (3-1) circulating inner-layered air; an air flow convert means (17) separating the outer-layered air from the inner-layered air; an air flow convert plate (14) positioned between a pair of air guide plates (11,11-1); a solenoid (15) driving to open the air flow convert plate (14).

Description

Defrost air circulation system in open show case

1 is a longitudinal cross-sectional view showing the configuration of a conventional open showcase and cooling air circulation.

2 is a defrost circuit diagram of a conventional open showcase.

3 is a cross-sectional view showing the configuration and cooling air circulation of the open showcase to which the present invention is applied.

4 is a perspective view of an air passage converting plate which is a main portion of FIG.

5 is a defrost circuit diagram according to the present invention.

* Explanation of symbols for main parts of the drawings

1: showcase body 3: the first blowing fan motor

3-1: Second blower fan motor 10: Separation panel

11, 11-1: upper and lower air guide plate 14: air passage conversion plate

15: solenoid 17: air passage converting means

The present invention relates to a defrost air circulation device of an open showcase, and more particularly, to a defrost air circulation device of an open showcase which prevents a high internal temperature from rising during defrosting and prevents the air outlet from freezing after defrosting.

Open showcases generally used are products installed in supermarkets and department stores, and the front of the product does not have a door, and cold air is formed inside the high temperature while blowing laminar air on the upper part of the showcase body to maintain a low temperature.

These open showcases are open to the front to increase the buyer's willingness to purchase and facilitate the display of goods.

The open showcase is defrosted because the hot air is partially introduced into the interior of the front part due to the opening of the front part, so that a frost is formed on the surface of the evaporator and thus the evaporator's evaporation capacity is reduced. During defrosting, the defrost heater installed on the front of the fan motor is heated, and the fan motor blows the hot air generated from the defrost heater to the evaporator to melt the frost formed on the surface of the evaporator, so that the evaporator area of the evaporator is maximized for cooling in the refrigerator. Make it as possible. However, at this time, since the freezing cycle is kept off, the temperature in the refrigerator is increased due to the hot heat generated in the defrost heater, which results in a defect in keeping the frozen food fresh.

FIG. 1 is a cross-sectional view showing the structure of a conventional open showcase, and as shown therein, an evaporator 2 is installed at one side of the showcase main body 1, and a first blower fan motor for circulating the inner layer air at the bottom of the furnace. (3) is installed and a second blowing fan motor (3-1) for circulating the outer layer air is installed at the upper corner of the inside of the refrigerator, and a defrost heater (4) is provided at the rear of the first blowing fan motor (3). It is installed adjacently.

The upper and lower air guide plates 11 and 11-1 and the separating panel 10 are installed along the inner inner and upper walls of the showcase main body 1 to form a cooling air passage. In the lower part of 1), an air suction plate 13-1 is installed, and an inner honeycomb 7 and an outer honeycomb 7-1 serving as an air discharge port are installed at an outlet of air at the upper end of the showcase body 1. The control unit provided at the outer upper end of the showcase body 1 is provided with a defrost timer 12 for controlling the defrosting time.

In the drawings, reference numeral 6 denotes a shelf on which a product is placed, and 5, 8, and 9 show a shaft, an expansion valve, and a compressor, respectively, and the evaporator 2 is installed so as to be located inside the high chamber. It is provided in the outer bottom part of the showcase main body 1. As shown in FIG.

2 is a defrost circuit diagram of a conventional open showcase. Hereinafter, the operation of the conventional open showcase will be described with reference to this circuit diagram.

The defrosting operation of the conventional open showcase is performed when a predetermined time has elapsed since the refrigeration operation is progressed. When the defrosting time is reached, the defrosting timer 12 is turned on and heat is generated when power is applied to the defrosting heater 4. And, since the defrosting operation relay (R) is turned on and the contact A is connected and B is dropped, reverse power is applied to the second blower fan motor 3-1, so that the second blower fan motor 3-1 reverses rotation. In the compressor 9, power is cut off and stopped, and the first blower fan motor 3 rotates forward as it is in normal operation.

At this time, the air is circulated as shown in the arrow, and in more detail, the air sucked by the first blowing fan motor 3 which rotates forward includes the high temperature heat generated by the defrost heater 4 and the evaporator ( 2) The hot air and high humidity circulating air that melts the frost attached to the evaporator 2 while passing through the evaporator 2 is separated into laminar flow from the inner honeycomb 7 and is shown in the front opening of the showcase body 1. Air flow to form an air film, part of which is sucked into the inside of the air and part of the outer honeycomb 7-1.

At this time, in the outer honeycomb 7-1, the air blown out from the outside air and the inner honeycomb 7 by the reverse rotation of the second blowing fan motor 3-1 is sucked, and as shown in the drawing, the second blowing fan motor 3 -1) and the first blower fan motor (3) is reversely circulated between the wall of the showcase body (1) of the heat insulating material and the upper and lower air guide plate (11) (11-1) through the air suction plate (13-1) By the suction force of the repeated cycle to be sucked back to the evaporator (2).

As described above, in the conventional open showcase, the air changed to high temperature while passing through the defrost heater 4 is circulated again after melting the evaporator 2, wherein the circulating air passing through the evaporator 2 is changed to high temperature and high humidity and the high temperature and high humidity Air condenses to the inner honeycomb 7 while passing through the inner honeycomb 7. Therefore, when the defrosting time passes and normal operation is started again and the cooling air is discharged from the evaporator, freezing occurs in the inner honeycomb 7 to lower the freezing capacity. In addition, the high temperature and high humidity air passing through the inner honeycomb 7 during the defrosting operation is discharged into the high inside of the showcase main body 1 so that the internal temperature rises rapidly, causing defects to spoil the display goods. In addition, the hot air passing through the inside of the high air is cooled in the inside of the air is sucked back to the defrost heater (4) by the first blowing fan motor (3) to increase the load of the defrost heater (4), defrost on the evaporator (2) It was to degrade the ability.

The present invention has been made in order to solve the above-mentioned conventional problems, the outer layer air circulated by the first blowing fan motor and the inner layer air circulated by the second blowing fan motor during the defrosting operation as an air passage converting means. Separately flow, the first blower fan motor is rotated forward, the second blower fan motor is rotated reversely to circulate the low-temperature inner layer air at the top, and the hot and humid outer layer air is circulated at the lower side of the high internal temperature during defrosting Preventing a sudden rise and preventing overloading of the defrost heater to prevent the internal honeycomb freezing phenomenon occurring after the end of the defrost, the present invention will be described in detail with reference to the accompanying drawings as follows.

3 is a cross-sectional view of the open showcase in which the apparatus of the present invention is installed, and FIG. 4 is a perspective view showing an air passage converting means, which is a main part of FIG. 3, and is shown on one side of the showcase body 1 as shown in FIG. The evaporator 2 is installed, and the first blower fan motor 3 for circulating the inner layer air is installed at the bottom of the furnace, and the second blower fan motor 3-1 for circulating the outer layer air is disposed at the upper corner of the furnace. ) Is installed, and the defrost heater (4) is installed adjacent to the rear of the first blowing fan motor (3).

The upper and lower air guide plates 11 and 11-1 and the separating panel 10 are installed along the inner inner and upper walls of the showcase main body 1 to form a cooling air passage. In the lower part of 1), an air suction plate 13-1 is installed, and an inner honeycomb 7 and an outer honeycomb 7-1 serving as an air outlet are installed at an upper end of the showcase body 1, and a showcase The control unit provided on the outer upper end of the main body 1 is provided with a defrost timer 12 for controlling the defrost time.

In addition, an air passage changing means 17 for converting the air passage is provided in the middle portion of the upper and lower air guide plates 11 and 11-1.

The air path converting means 17 is composed of an air path converting plate 14 for converting the air path, and a solenoid 15 for driving the air path converting plate 14, and the air path converting plate 14 ) Is rotatably installed at one side of the opening 18 formed in the middle of the upper and lower air guide plates 11 and 11-1 by a hinge 16, and at one end or both ends of the air passage conversion plate 14. The plunger of (15) is connected.

The air passage converting plate 14 is formed in a curved portion 14-1 so that the middle portion thereof smoothly guides the flow of air.

Other conventional configurations are denoted by the same reference numerals.

5 illustrates an example of a defrost circuit diagram according to the present invention, and as shown therein, the defrost relay R is operated according to the time set in the defrost timer 12 and the contact A is operated by the defrost relay R. FIG. , B is connected or disconnected, and when the contact A is connected, the second blower fan motor 3-1 for outer layer air circulation reverses, and the solenoid 15 is operated. At this time, the first blower fan motor 3 is It is supposed to continue forward rotation.

In the present invention as described above, the defrosting timer 12 is turned on when the showcase is driven and the defrosting time has elapsed. When the defrosting timer 12 is turned on, the compressor 9 which is driven is stopped. Then, the defrost heater 4 is heated and the power is applied to the defrosting operation relay R so that the contact point A is turned on so that the second blower fan motor 3-1 for circulation of the outer layer air is reversed so that the outer layer air Will cycle in the opposite direction. In addition, the solenoid 15 is operated as the contact A is turned on, and as the solenoid 15 is operated, the air passage converting plate 14 rotates the hinge 16 about the central axis, and thus the third and fourth views are rotated. It is opened in the state shown in the figure.

At this time, the flow of air is divided on the basis of the air passage conversion plate 14. First, the circulating air circulated by the blowing force of the first blower fan motor 3 for inner layer air circulation is heated by the heat generated by the defrost heater 4. Air flows to the evaporator 2 side to thaw the ice attached to the evaporator 2. Then, the hot air of the high temperature and high humidity passing the evaporator 2 is changed to the rear of the lower air guide plate 11-1 by the air passage conversion plate 14 and flows to the lower side inside the high air as shown in FIG. 3. Then, the air is sucked into the first blowing fan motor 3 through the air suction plate 13-1. In addition, the air flowing in this way flows smoothly and easily by the curved portion 14-1 of the air passage conversion plate 14.

On the other hand, the air circulated in the reverse rotation of the second blower fan motor 3-1 for outer layer air circulation is sucked from the outer honeycomb 7-1 by the reverse rotation of the second blower fan motor 3-1, and the second It flows downward through the rear part of the upper air guide plate 11 through the blower fan motor 3-1, and after the wind direction is changed upward by the air passage conversion plate 14, it is discharged through the inner honeycomb 7 and opened. Showcase Showcase The air film is formed in the front opening of the main body (1).

Therefore, the hot air of high temperature and high humidity is circulated only to the lower part of the air passage conversion plate 14 so that hot air is not supplied to the inside of the showcase, and the circulated air circulated as the cooling air and the outside air of the inside of the showcase is That is, since only the air passage formed on the upper portion of the air passage conversion plate 14 is circulated, it becomes possible to solve the freezing phenomenon of the inner honeycomb 7 which has been a conventional problem.

When the defrosting operation is completed as described above and the defrost timer 12 is turned off, the defrost heater 4 is turned off and the second blower fan motor 3-1 performs the forward rotation, and the compressor 1 starts the operation. Since the power is turned off to the switch of the solenoid 15 and the solenoid 15 returns to its original position by the return force of the return spring provided therein, the air passage converting plate 14 returns to its original state and the cooling air is circulated normally. .

In the present invention as described above, the high temperature and high humidity defrost hot air during defrosting is circulated to the lower passage of the showcase, and the low temperature and general circulating air are separated and circulated to the air passage at the upper side of the showcase so that the internal temperature of the high temperature during the defrosting increases rapidly. It is possible to solve the problem that is, and to solve the problem that the defrost heater is overloaded, to solve the problem that the inner honeycomb freezes after the completion of defrosting, there is an advantage that can improve the freezing capacity and keep the goods fresh without deterioration.

Claims (2)

During defrost operation, the outer layer air circulated by the first blower fan motor 3 and the inner layer air circulated by the second blower fan motor 3-1 are separated and flowed into the air passage converting means 17, and the first flow is performed. The blower fan motor 3 rotates forward and the second blower fan motor 3-1 reversely rotates to circulate low-temperature inner layer air at the upper side, and to cool the high-temperature and outer layered meat at the lower side. Defrost air circulation system of open showcase. The air passage converting means (17) is located between the wall of the showcase body (1) and the separating panel (10) and at the same time between the upper and lower air guide plates (11) (11-1). A defrosting air circulation system of an open showcase comprising an air passage converting plate (14) provided and a solenoid (15) for opening and closing the air passage converting plate (14).