KR20090095886A - dryer for blowing cooled air - Google Patents

Abstract

A cold wind dryer is provided to operate stably and prevent excessive frosting in an evaporator at low temperature by installing an outside pilot type pressure control valve at a bypass tube. A cold wind dryer comprises a compressor(1), a condenser(2), an expansion valve(3), an evaporator(14), a discharging unit, and a bypass tube(18). The compressor presses and discharges refrigerant. The condenser condenses the refrigerant discharged from the compressor. The expansion valve distends the refrigerant condensed in the condenser. In case the refrigerant expanded in the expansion valve passes through the inside of the evaporator, the evaporator evaporates inner air with heat-exchanging the inner air and refrigerant. The discharging unit ejects the moisture of the inner air condensed by being heat-exchanged with the evaporator. The bypass tube connects the discharge side and the evaporator suction side of a compressor. An outside pilot type pressure adjust valve(20) is formed on the route of the bypass tube. The outside pilot type pressure control valve is selectively opened according to the pressure of the compressor suction side.

Description

Dryer for blowing cooled air}

The present invention relates to a cold air dryer, and more particularly, to provide a cold air dryer that can be stably operated even at low temperatures without dropping the evaporator.

In general, a cold air dryer exchanges heat with a refrigerant flowing inside an evaporator and an internal air of a space to be dried (hereinafter referred to as 'betting') in a device forming a refrigeration cycle, thereby allowing the water in the air to condense and drying the condensed water. It is a device for drying the drying target space by discharging to the outside of the target space.

1 is a schematic block diagram showing a conventional cold air dryer.

As shown in FIG. 1, the conventional cold air dryer condenses the refrigerant compressed and discharged in the compressor 1 by passing through the condenser 2, and then the condensed refrigerant passes through the receiver 5 in the expansion valve 3. After expansion, it is allowed to move to the evaporator (4).

At this time, the refrigerant evaporated in the evaporator 4 exchanges heat with the bet of the drying target space, thereby condensing moisture contained in the bet, and drying the drying target space by discharging the condensed water out of the drying target space. You can.

Here, a heating heat exchanger 6 may be provided between the discharge side of the compressor 1 and the discharge side of the condenser 2. The heating heat exchanger (6) is preferably provided to maintain the drying target space at a suitable temperature by causing the cooled bet to be heated again while passing through the evaporator (4). By selectively blocking the valve of the pipe entering the heating heat exchanger 6, the heating heat exchanger 6 is operated when heating is required.

The valves and flexible tubes (FT) shown in the drawings are configurations that can be changed by the design of the device. NRD is the equalization valve, KVP is the condensing pressure regulating valve, EV is the solenoid valve, SV is the stop valve, CV is checked A valve, 8 is a sight glass, 9 is a dryer and is of variable design by design.

On the other hand, the conventional cold air dryer is used while maintaining the temperature of the space to be dried in the range of 22 ~ 30 ℃, the reason is that if it maintains below the temperature range, excessive dropping occurs in the evaporator, heat exchange efficiency is significantly reduced. That is, in order to keep the temperature of the space to be dried low, the temperature of the evaporator must be kept lower enough to condense the moisture contained in the bet, but in this case, excessive dropping occurs in the evaporator, thereby frequently operating the compressor. There was a serious problem that had to be stopped.

As such, when the agricultural products are dried at a relatively high temperature, the freshness is reduced and the color is not multiplied, which makes it difficult to improve the quality of the dried agricultural products. In particular, in the case of dried blue fish such as mackerel, mackerel, etc., there was a problem that the marketability is significantly reduced when dried at 15 ℃ or more.

The present invention is to solve the problems of the prior art to the problem that the cold wind dryer can operate stably by blocking the excessive drop generation even when operating at low temperatures.

In order to solve the above problems, the present invention is a compressor for pressurizing the refrigerant discharge; A condenser for condensing the refrigerant discharged from the compressor; An expansion valve for expanding the refrigerant condensed in the condenser; An evaporator arranged to evaporate through the heat exchange with the bet of the drying target space while the refrigerant expanded in the expansion valve passes through the inside; Discharge means for discharging water on the internal air that is condensed by heat exchange with the evaporator; And a bypass pipe connected between the discharge side of the compressor and the suction side of the evaporator, the bypass tube having an external pilot pressure control valve selectively opened in accordance with the pressure of the suction side of the compressor. to provide.

Here, the pilot pipe of the external pilot pressure control valve is connected to the compressor discharge side, the external pilot pressure control valve is opened when the compressor suction side pressure is less than the set pressure. In this case, the set pressure is preferably set so that the refrigerant on the discharge side of the compressor is supplied to the evaporator before the evaporator surface reaches the accumulation temperature. Specifically, the set pressure is preferably 2.9 ~ 3.3 kgf / m ² to maintain the evaporator surface temperature at 5 ~ 15 ℃. In addition, the connection portion between the bypass pipe and the evaporator suction side is preferably provided with a mixing valve.

Cold air dryer according to the present invention provides the following effects.

First, since the bypass pipe having an external pilot pressure control valve is installed on the surface of the evaporator to allow the high-temperature, high-pressure refrigerant at the compressor discharge stage to flow into the evaporator. It can be operated stably without being generated. Therefore, it is possible to operate the cold air dryer relatively stably in the low temperature range which could not be operated due to the evaporator dropping problem in the past.

Second, since the cold air dryer operates stably even at a low temperature range of 5 ° C. to 22 ° C. of the drying target space, it can be dried while maintaining the freshness and color of the agricultural and marine products in a high quality state. In particular, in the case of the blue fish such as mackerel, mackerel, etc. should be dried at a low temperature below 15 ℃, low temperature cold air dryer according to the present invention can satisfy these conditions.

Hereinafter, a cold air dryer according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. Here, the description of the same reference numerals and the same reference numerals will be omitted for convenience of description.

Figure 2 is a schematic block diagram showing a cold air dryer according to an embodiment of the present invention.

As shown in Figure 2, the cold air dryer according to the present invention is installed in the interior of the drying target space 100 is blocked from the outside by the diaphragm. The cold air dryer includes an evaporator 14 forming a part of a refrigeration cycle and a heat exchanger 16 for reheating the bet passed through the evaporator 14 by introducing refrigerant from the condenser.

That is, the water contained in the bet of the drying target space which is blown to the evaporator 14 and passes therethrough is condensed and collected by the lower discharge means 17 to be discharged to the outside of the drying target space. In addition, the bet cooled while passing through the evaporator 14 is preferably reheated while passing through the heat exchanger 16 to maintain a proper temperature.

For convenience of description, the illustration of the entire configuration constituting the refrigerating cycle is omitted in FIG.

3 is a block diagram showing the overall configuration of a cold air dryer according to an embodiment of the present invention.

As shown in FIG. 3, the cold air dryer includes a compressor 1, a condenser 2, an expansion valve 3, an evaporator 14, a discharge means (17 in FIG. 2) and an external pilot pressure control valve 20. It includes a bypass pipe 18 is provided.

Here, the compressor 1 pressurizes and discharges the refrigerant circulated to form a refrigeration cycle, and the condenser 2 condenses the refrigerant discharged from the compressor 1. The refrigerant condensed in the condenser 2 expands while passing through the expansion valve 3 and then flows into the evaporator 14.

The refrigerant passing through the evaporator 14 is evaporated while exchanging heat with the bet inside the drying target space. At this time, the heat exchanged with the evaporator 14, the moisture on the inside is condensed and collected by the discharge means and discharged to the outside of the drying target space, the interior of the drying target space can be dried.

In addition, a heating heat exchanger 16 may be provided between the discharge side of the compressor 1 and the discharge side of the condenser 2. The heating heat exchanger 16 is preferably provided to maintain the drying target space at a suitable temperature by causing the cooled bet to be heated again while passing through the evaporator 14. By selectively blocking the valve of the pipe entering the heating heat exchanger 16, the heating heat exchanger 16 is operated when heating is required. In addition, a gas-liquid separator 15 is installed at the suction side of the compressor 1 to prevent the liquid refrigerant from flowing into the compressor 1 to prevent damage to the compressor due to cavitation.

On the other hand, the bypass pipe 18 is connected between the discharge side of the compressor 1 and the suction side of the evaporator 14, according to the pressure of the suction side of the compressor 1 on the path of the bypass pipe 18. An external pilot pressure control valve 20 is provided that is selectively opened. That is, the external pilot pressure control valve 20 is a device for opening the flow path of the fluid between the inlet side and the outlet side when the pressure applied to the pilot pipe 21 connected thereto is less than the set pressure.

4 is an explanatory diagram for explaining an external pilot pressure control valve according to an embodiment of the present invention.

As shown in FIG. 4, a bypass pipe 18a on the discharge side of the compressor (1 in FIG. 2) is connected to an inlet side of the external pilot pressure control valve 20, and an evaporator (14 in FIG. 2) is suctioned on an outlet side. The bypass pipe 18b of the side is connected. At this time, the pilot pipe 21 of the pressure control valve 20 is connected to the compressor suction side, when the pressure of the set pressure or more is applied to the inside of the pilot pipe 21 maintains the flow of fluid is blocked. . That is, when the pressure of the suction side of the compressor 1 is greater than or equal to the set pressure, the flow of the fluid through the pressure control valve 20 is blocked.

On the other hand, when a pressure below the set pressure is applied to the pilot pipe 21, the pressure control valve 20 is opened to allow the refrigerant discharge side high temperature and high pressure refrigerant to flow into the evaporator suction side.

Here, the set pressure is set in the vicinity of the pressure range where the dropping occurs in the evaporator 14, preferably is set slightly higher than the pressure when the dropping occurs in the evaporator (14). That is, the set pressure is preferably set to be in the range of 2.9 ~ 3.3 kgf / m ² to maintain the evaporator surface temperature at 5 ~ 15 ℃. In general, the inside of the refrigeration cycle is low vacuum in a stationary state, and when the set pressure is set within a pressure range of 2.9 ~ 3.3 kgf / m ² under the low vacuum conditions used commercially, it is prevented from dropping in the evaporator 14 It can be used continuously and stably.

This set pressure may be set by adjusting the strength of the return means (20a) provided in the external pilot pressure control pipe (20). The return means 20a may be made of an elastic member, or in some cases, may be replaced by a configuration in which the pressure control valve is electronically controlled by sensing the pressure in the pilot pipe 21.

3 and 4, when the pressure on the suction side of the compressor 1 is lower than or equal to the set pressure, it means that the pressure on the discharge side of the evaporator 14 is low. Can be. When the pressure on the suction side (evaporator discharge side) of the compressor 1 is reduced to such an extent that the dropping starts, the pressure control valve 20 is opened so that the high temperature and high pressure refrigerant on the discharge side of the compressor 1 flows into the evaporator 14. It is possible to prevent the occurrence of a drop.

That is, the temperature of the evaporator 14 is raised again by mixing and supplying the refrigerant having a high temperature and high pressure at the discharge end of the compressor 1 to the refrigerant flowing into the evaporator 14 before the dropping begins on the surface of the evaporator 14. Injury can be prevented. To this end, it is preferable that a mixing valve 25 is provided at the connection portion between the bypass pipe 18 and the suction side of the evaporator 14. The mixing valve 25 mixes the refrigerant expanded while passing through the expansion valve 3 and the refrigerant selectively introduced through the pressure control valve 20 to be mixed well.

As such, the cold air dryer according to the present invention does not have to lower the temperature of the evaporator 14 below the dropping temperature, so that the operation of the compressor is often stopped, or a high-capacity variable compressor is provided without the need for complicated control. Can be operated stably in the temperature range of 5 ~ 30 ℃ including the range.

Although the above-described embodiments have been described with respect to the most preferred examples of the present invention, it is apparent to those skilled in the art that the present invention is not limited to the above embodiments, and various modifications can be made without departing from the technical spirit of the present invention.

1 is a block diagram of a conventional cold air dryer.

Figure 2 is a schematic diagram showing the arrangement of the cold air dryer according to an embodiment of the present invention.

Figure 3 is a block diagram of a cold air dryer according to an embodiment of the present invention.

Figure 4 is an explanatory view of an external pilot pressure control valve according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

1: compressor 2: condenser

3: expansion valve 14: evaporator

18: bypass pipe 20: external pilot pressure control valve

21: pilot piping 25: mixing valve

Claims (5)

A compressor for pressurizing and discharging the refrigerant; A condenser for condensing the refrigerant discharged from the compressor; An expansion valve for expanding the refrigerant condensed in the condenser; An evaporator arranged to evaporate through the heat exchange with the bet of the drying target space while the refrigerant expanded in the expansion valve passes through the inside; Discharge means for discharging water on the internal air that is condensed by heat exchange with the evaporator; And And a bypass pipe connected between the discharge side of the compressor and the suction side of the evaporator, the bypass pipe having an external pilot pressure control valve selectively opened according to the pressure of the compressor suction side on a path thereof. The method of claim 1, And a pilot pipe of the external pilot pressure control valve is connected to the compressor discharge side, and the external pilot pressure control valve is opened when the pressure of the compressor suction side is less than or equal to a set pressure. The method of claim 2, And the set pressure is set so that the refrigerant at the discharge side of the compressor is supplied to the evaporator before the evaporator surface reaches the accumulated temperature. The method of claim 3, wherein The set pressure is cold air dryer, characterized in that 2.9 ~ 3.3 kgf / m ² to maintain the evaporator surface temperature at 5 ~ 15 ℃. The method of claim 1, The connection portion between the bypass pipe and the suction side of the evaporator is a cold air dryer, characterized in that the mixing valve is provided.

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