KR101181529B1 - Coldness and warmth drying system, and drying machine using thereof - Google Patents

Abstract

The present invention relates to a cold and hot dryer, and more particularly, it is possible to dry the hot air and cold air cross into the storage compartment using a single device when drying the agricultural and marine products as needed, and the refrigerant pipe during the cross blow operation of cold and hot air Compressor (10) for compressing the refrigerant for the purpose of allowing the air blowing immediately crosses the hot air and cold air without waiting for the pressure balance of the; A first heat exchanger 30 and a second heat exchanger 40 generating hot air or cold air by heat exchange of the refrigerant; A cold / hot converting unit 20 selectively transferring the refrigerant compressed by the compressor to any one of the first heat exchanger and the second heat exchanger; The pressure reducing coil is installed in the refrigerant pipe between the first heat exchanger and the second heat exchanger, and is formed between the first pressure reducing tube 72 on the first heat exchanger side and the second pressure reducing tube 74 on the second heat exchanger side. 70; An amplifier 50 for expanding and evaporating a refrigerant between each of the heat exchangers and the decompression coils, and between the first auxiliary pipe 82 and the second auxiliary pipe 84 connecting the first and second pressure reducing pipes, respectively. It is formed is provided a cold and hot dryer consisting of an electronic valve 80 to achieve a pressure balance between the first pressure reducing pipe and the second pressure reducing pipe when the compressor is stopped.

Description

Cold-drying system and cold-drying machine using the same {COLDNESS AND WARMTH DRYING SYSTEM, AND DRYING MACHINE USING THEREOF}

The present invention relates to a cold and dry system for drying various agricultural and marine products such as dried persimmons, mushrooms, anchovies, and cold and dry dryers using the same. The present invention relates to a cold / hot drying system and a cold / hot dryer using the same, which enables cross-blowing operation immediately without waiting for pressure balance inside the refrigerant pipe during cross-blowing operation from cold air to warm air.

Traditionally, to dry various agricultural products such as dried persimmons, mushrooms and anchovies, they were dried in a cool place in the shade, but this traditional method is time-consuming and the drying period varies depending on the climate such as humidity and temperature. There is a problem that the quality is not constant.

As shown in FIG. 1 attached as a prior art for this purpose, in Korean Registered Utility Model No. 20-0419355 (Patent Document 1), the air warmed by the electric heater 4 is blown to the drying chamber 6 with a blower 5, In the agricultural and marine products dryer which circulates by suction and drys the agricultural and marine products of the tray 17 laminated | stacked in the drying chamber 6 in multiple stages, the preheating chamber 7 which heats air with the electric heater 4 in the upper end of the drying chamber 6 is made Prepared; The upper end of the hot air supply pipe 8 is connected to the preheating chamber 7 by vertically erecting the hot air supply pipe 8 having a plurality of injection holes 19 formed at four inner corners and both sides of the drying chamber 6. The hot air supply pipes 8 formed at both front sides of the drying chamber 6 form injection holes 19 on the inner side and the rear surface, and the hot air supply pipe 8 formed at the rear side has the injection holes 19 at the inner side and the front surface thereof. The hot air supply pipe (8) formed among them forms an injection hole (19) in the inner side, the front, and the rear so that the air warmed by the electric heater (4) can be sprayed uniformly throughout the drying chamber (6). One agricultural fish dryer was proposed.

However, while the structure of Patent Document 1 satisfies the condition that hot air can be uniformly sprayed on the entire agricultural product, the agricultural product is not dried properly by moisture evaporating from the agricultural product due to the hot air. As a result, the maintenance cost increases.

As another prior art, as shown in FIG. 2, in Korean Patent Registration No. 10-0865905 (Patent Document 2), an exhaust hole 181 is formed on a drying chamber 130, and an intake hole is formed on the hot air supply chamber 140. An air intake door 115a is mounted to control opening and closing 115, and a blowing fan 160 and a heater 150 are installed in the hot air supply chamber 140, and the hot air supply chamber 140 and the drying chamber 130 are provided. In the agricultural and marine products dryer communicates with the hot air supply hole 131, the exhaust duct 180 is installed on the exhaust hole 181, the outlet 182 is extended toward one side; Hot air circulation holes 171 formed on the hot air supply chamber 140; A circulation duct 170 installed on the hot air circulation hole 171; A moisture removal housing 101 connected and communicated between the exhaust duct 180 and the circulation duct 170; A moisture removal nonwoven fabric 103 disposed inside the moisture removal housing 101 and connected to an inner surface of the circulation duct 170 from the inner side of the exhaust duct 180 to be detachably installed; And a moisture removing blower (108) connected to one end of the moisture removing nonwoven fabric (103).

However, in consideration of the fact that the quality and price of agricultural and marine products that need to be dried are determined according to their drying conditions, and that appropriate cold air is required as well as hot air during drying, in the case of Patent Literature 2, the moisture is simply Since the method of removing moisture by the nonwoven fabric for removal, there is a structural disadvantage that can not directly blow the cold air to the agricultural and aquatic products and continue to apply only the warm air. Therefore, not only can not achieve the optimal drying conditions, there is a problem such as the need for frequent replacement, such as the need to replace the non-woven fabric for removing moisture, such as maintenance costs.

Another common method is to install cold air and hot air to blow cold air and warm air in order, and then put agricultural and marine products in the warm air and operate them to dry them properly with warm air. You may want to consider.

However, in this case, since the cold and hot air fans must be installed separately, they are expensive and have not been welcomed because of the inconvenience of moving agricultural products to each device in time.

1. Utility Model Registration of Korea Registration No. 20-0419355 2. Korean Patent Registration No. 10-0865905

An object of the present invention devised to solve all the problems of the prior art, the cold and hot drying system to dry the hot and cold air to cross into the drying chamber as needed using a single device when drying the agricultural and marine products, and It is providing the cold / dry dryer using the same.

It is another object of the present invention to provide a cold and hot drying system and a cold and hot dryer using the same, allowing the air to be blown by hot air and cold air immediately without waiting for the pressure balance of the refrigerant pipe during cross blow operation of cold and hot air.

The cold and hot drying system of the present invention for achieving the above object, a compressor for compressing the refrigerant, a first heat exchanger to generate hot air or cold air by heat exchange of the refrigerant, and generates hot air or cold air by heat exchange of the refrigerant, A second heat exchanger crossing the first heat exchanger to generate cold or warm air, a cold / hot converting unit for selectively transferring the refrigerant compressed by the compressor to either the first heat exchanger or the second heat exchanger, and the first heat exchanger and the first heat exchanger. It is provided in the refrigerant pipe between the two heat exchangers, the pressure reducing coil formed between the first pressure reducing tube on the first heat exchanger side and the second pressure reducing tube on the second heat exchanger side, and the refrigerant between each of the heat exchanger and the pressure reducing coil Characterized in that it consists of an amplifier for expansion and vaporization.

As a preferred embodiment, the cold and hot drying system of the present invention is formed between the first auxiliary pipe and the second auxiliary pipe connecting the first pressure reducing pipe and the second pressure reducing pipe, respectively, and the first pressure reducing pipe and the first pressure reducing pipe and the second pressure reducing pipe are stopped when the compressor is stopped. It characterized in that it further comprises an electronic valve to achieve a pressure balance of the two pressure reducing tube.

In a more preferred embodiment, the cold and hot drying system of the present invention is characterized in that a bidirectional filter is installed in the first pressure reducing pipe or the second pressure reducing pipe to remove impurities from the refrigerant.

In the cold / dry dryer of the present invention using the cold / dry drying system, a first heat exchanger and a second heat exchanger are installed in the dryer, and one of the first heat exchanger and the second heat exchanger exchanges heat with external air, and the other One is characterized in that configured to blow hot air or cold air to the drying chamber (3).

According to the present invention, the drying operation of cold and hot air can be cross-ventilated by a single device when drying the agricultural and marine products, so that not only the initial purchase cost but also the maintenance cost can be remarkably reduced, and there is no need to move the agricultural and marine products around. This is easy. In other words, once you put the agricultural and marine products in the drying room, you can leave to dry until it is completed.

In addition, the cold and hot air can be changed at any time according to the dry condition of agricultural and marine products, and the air can be blown at any time. When changing the condition from cold to warm air or from warm to cold air, it can be operated immediately without waiting for pressure balance inside the refrigerant pipe. Since it is possible to form the optimal drying conditions has the effect of obtaining the agricultural products dried to the best quality.

BRIEF DESCRIPTION OF THE DRAWINGS The front view which showed the cross section of the agricultural and marine products dryer of a prior art (patent document 1).
Figure 2 is a longitudinal sectional view showing a cross section of the agricultural and marine products dryer of the prior art (Patent Document 2).
Figure 3 is a perspective view schematically showing a cold and hot dryer according to an embodiment of the present invention.
Figure 4 is a system configuration showing a cold air and hot air generation process of the cold and hot dryer according to an embodiment of the present invention.
Figure 5 is a block diagram showing the operation of the cold and hot dryer according to an embodiment of the present invention.
Figure 6 is a front view schematically showing a cold and hot dryer structure according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying Figures 3 to 6 showing a preferred embodiment of the present invention will be described in more detail. It should be understood, however, that there is no intention to limit the invention to the particular form disclosed, but on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. A detailed description thereof will be omitted.

Figure 3 is a perspective view schematically showing a cold and hot dryer according to an embodiment of the present invention, Figure 4 is a schematic diagram showing a cold air and hot air generation process of the cold and hot dryer according to an embodiment of the present invention.

As shown in FIG. 3, the cold / dry dryer 1 according to the present invention includes a control unit 2 for controlling various equipment therein, a drying chamber 3 for storing and drying agricultural and marine products, and the drying chamber 3. It is composed of a door (4) for allowing the agricultural and marine products to be withdrawn, two or one or three or more may be installed as shown in accordance with the capacity of the drying room (3).

Since the drying chamber 3 has an environment in which hot or cold air is irradiated by two heat exchangers installed in one dryer 1 device, the agricultural and marine products in the drying chamber are dried under a warm or cold air environment according to a user's choice.

The cold / hot drying system according to the present invention can immediately change the cold / hot air drying environment. That is, if the drying chamber 3 was a cold air drying environment, it can be immediately changed to a hot air drying environment, and the cross-ventilation operation can be immediately changed from a hot air drying environment to a cold air drying environment, so that the optimum drying environment is available depending on the type of agricultural and marine products. In addition to being able to create a high quality, it is easy to work and save money.

Hereinafter will be described the cold and hot drying system of the present invention.

As shown in Figure 4, the cold and hot drying system includes a compressor (10) for compressing the refrigerant; A cold / temperature converter 20 connected to the compressor and the refrigerant pipe 100 to selectively transfer the refrigerant compressed by the compressor to the first pipe 101 or the sixth pipe 106; A first heat exchanger 30 connected to the cold / hot converting unit and the first pipe 101 to generate hot air or cold air by heat exchange of the refrigerant; An amplifier (50) connected to the first heat exchanger and the second pipe (102) at the same time, and connected to the cold / heat conversion unit and the sixth pipe (106) to expand and vaporize the refrigerant; A second heat exchanger 40 connected between the amplifier and the fifth pipe 105 to generate hot air or cold air by heat exchange of the refrigerant; It is installed between the third tube 103 connected to the amplifier and the fourth tube 104 connected to the second heat exchanger, and the first pressure reducing tube 72 and the fourth tube side of the third tube side are installed. A pressure reducing coil 70 formed between the two pressure reducing pipes 74; And a first auxiliary pipe 82 and a second auxiliary pipe 84 connecting the first pressure reducing pipe and the second pressure reducing pipe, respectively, to stop the operation of the compressor. It is configured to include an electron valve 80 for opening each auxiliary pipe (82, 84) to achieve a pressure balance.

The electromagnetic valve 80 is a device for operating the pressure of the first pressure reducing tube 72 and the second pressure reducing tube 74 to operate immediately after the operation of the compressor 10 is stopped.

In addition, an amplifier 50 is provided between each of the heat exchanger 30 and the pressure reducing coil 70 to expand the refrigerant, and the third pipe 103 to which the first pressure reducing pipe 72 is connected or In the fourth pipe 104 to which the second pressure reducing pipe 74 is connected, a bidirectional filter 60 for removing impurities from the refrigerant may be installed.

The compressor 10 is, for example, a device for compressing a typical refrigerant gas such as freon gas at high temperature and high pressure, and the cold / hot converting unit 20 is connected through the compressor 10 and the refrigerant pipe 100. The cold and hot converting unit 20 is branched into the first pipe 101 and the sixth pipe 106 and connected to the first heat exchanger 30 and the second heat exchanger 40, respectively. 20 is a kind of three-way valve, which is a kind of known three-way valve provided to select and send the refrigerant supplied through the refrigerant pipe 100 to the first pipe 101 or the sixth pipe 106.

The first heat exchanger 30 is a device for generating hot or cold air by heat exchange of the refrigerant, and the second heat exchanger 40 is a device for generating cold or hot air by heat exchange of the refrigerant. 30) is opposite to cold / hot air.

The amplifier 50 is connected to the first heat exchanger 30 and the second heat exchanger 40 by a refrigerant pipe to expand and vaporize the refrigerant.

The bidirectional filter 60 is a bidirectional filter for removing impurities of the refrigerant flowing in the reverse direction as well as the refrigerant flowing in the forward direction, and includes a first pressure reducing pipe 72 connecting the pressure reducing coil 70 and the first heat exchanger 30. ) May be installed in the second pressure reducing tube (74) connecting the pressure reducing coil (70) and the second heat exchanger (40), or may be installed in both pressure reducing tubes (72) and (74).

The reduced pressure coil 70 is formed to have a very small diameter to reduce the pressure of the refrigerant gas.

The electron valve 80 is installed in parallel with the decompression coil 70. That is, the first auxiliary pipe 82 and the second auxiliary pipe 84 connected to both sides of the electromagnetic valve 80 are connected to the first pressure reducing pipe 72 and the second pressure reducing pipe 74, respectively. The pressure difference between the first pressure reducing pipe 72 and the second pressure reducing pipe 74 is brought into equilibrium by allowing the first auxiliary pipe 82 and the second auxiliary pipe 84 to communicate with each other during stop operation or cross operation of hot air and cold air. It is intended to convert, the operation thereof will be described in more detail below.

Figure 5 is a block diagram showing the operation flow of the cold and hot dryer according to an embodiment of the present invention, Figure 6 is a front view schematically showing a cold and hot dryer structure according to an embodiment of the present invention.

4 to 6 will be described the operation of the cold and hot drying system of the present invention, and the cold and hot dryer to which the cold and hot drying system is applied, through which the present invention will be more clear. For reference, in FIG. 4 and FIG. 5, the flow of the solid arrow shows the first operation flow, and the flow of the dashed arrow shows the reverse flow of the first operation flow.

As shown in FIGS. 4 and 5, in the first operation flow, when the refrigerant is compressed in the compressor 10, the refrigerant in a high temperature and high pressure state passes through the cold / hot converting unit 20 and the first pipe 101. The heat exchanger is converted into a low temperature (in this case, warm air is generated in the first heat exchanger), and the heat exchanged refrigerant is then vaporized in the amplifier 50 via the second pipe 102 to be in a low density and low temperature state. Impurities are removed in the process of being transferred to the first pressure reducing tube 72 while passing through the bidirectional filter 60 formed in the three tubes 103.

Since the electromagnetic valve 80 closes the first auxiliary pipe 82 and the second auxiliary pipe 84 during the normal operation, the refrigerant gas introduced into the first pressure reducing pipe 72 is a reduced pressure coil 70 having a small diameter. Will be via).

When the vaporized refrigerant passes through the reduced-pressure coil 70 having a small diameter, the pressure is extremely low and is maintained at a low temperature due to the characteristics of the refrigerant. In addition, the second reduced pressure pipe 74, the fourth pipe 104, and the bidirectional filter 60 are used. After passing through the second heat exchanger 40 generates cold air by heat exchange.

Accordingly, as shown in FIG. 6, the first heat exchanger 30 is configured to exchange heat with the outside air, and the second heat exchanger is configured to send hot or cold air to the drying chamber 3, and the first heat exchanger 30 is connected to the first heat exchanger 30. When the second heat exchanger 40 is installed insulated from each other in the dryer 1, the first heat exchanger 30 exchanges heat with the outside in accordance with the first operating flow, while the second heat exchanger 40 has a drying chamber 3. ) Cool air is blown inside to create a cold air drying environment.

During the first operation flow, when the operation of the compressor 10 is stopped in the process of operating the first operation flow again after the operation of the compressor 10 is stopped, the electromagnetic valve 80 is operated to operate with the first pressure reducing tube 72. The pressure inside the second pressure reducing pipe 74 is made equal. That is, by opening the first auxiliary pipe 82 and the second auxiliary pipe 84 mutually, the pressure in the first pressure reducing pipe 72 and the second pressure reducing pipe 74 is equalized. This is because, during the first operation, the refrigerant gas is stagnated while passing through the pressure reducing coil 70 having a very small diameter in the first pressure reducing pipe 72 to increase the pressure, while the pressure of the second pressure reducing pipe 74 is relatively low. .

As such, when the compressor 10 is restarted while the internal pressure of the first decompression tube 72 is high, there is a problem in that a load is generated in the compressor 10. Thus, the first auxiliary pipe 82 is operated by the operation of the electromagnetic valve 80. The first auxiliary pressure pipe 72 and the second pressure-reducing pipe 74 to balance the pressure by opening the second auxiliary pipe 84 and each other.

In addition, when the cold / hot converting unit 20 opens the refrigerant to the second heat exchanger 40 to cross the first operation to the second operation, the electromagnetic valve 80 is operated so that the first pressure reducing pipe 72 The pressure inside the two reducing pipes 74 is equalized. That is, during the first operation, the refrigerant gas is stagnated while passing through the pressure reducing coil 70 having a very small diameter in the first pressure reducing pipe 72 to increase the pressure, while the pressure of the second pressure reducing pipe 74 is relatively high. When the operation is crossed in such a state, a problem arises due to pressure imbalance, so that the first box pressure pipe 72 and the second pressure reducing pipe 74 are operated by each of the auxiliary pipes 82 and 84 by operating the solenoid valve 80. By communicating with each other through), the pressure in each of the pressure reducing tubes 72 and 74 is equalized.

When crossed in the second operation, the refrigerant brought into the high temperature and high pressure state by the compressor 10 is discharged through the sixth pipe 106, the amplifier 50, and the fifth pipe 105 connected to the cold / temperature conversion unit 20. Hot air is generated by heat exchange in the second heat exchanger 40 to increase the ambient air temperature, and the warm air generated by the second heat exchanger 40 is introduced into the drying chamber 3 to dry the agricultural and marine products under a warm air drying environment.

The refrigerant heat-exchanged in the second heat exchanger 40 is vaporized in the amplifier 50 to become a low temperature state, and impurities are removed in the process of being transferred to the second pressure reducing tube 74 while passing through the bidirectional filter 60.

The refrigerant gas introduced into the second pressure reducing pipe 74 passes through the first pressure reducing pipe 72 and another bidirectional filter 60 in a state where the pressure is reduced while passing through the pressure reducing coil 70 having a small diameter. Heat exchange is performed in one heat exchanger (30).

Due to the structure in which the first operation and the second operation cross each other, the inside of the drying chamber 3 has a cold air or a warm air drying environment. That is, during the first operation, the refrigerant sent from the cold / conversion unit 20 to the first pipe may include a first heat exchanger, a second pipe, an amplifier, a third pipe, a pressure reducing coil, a fourth pipe, a second heat exchanger, and a first heat exchanger. Hot air is generated in the first heat exchanger and cold air is generated in the second heat exchanger while passing through the 5 pipes, the amplifier, and the 6th pipe in turn, and in the second operation, the cold air is transferred from the cold / hot conversion unit 20 to the 6th pipe. The refrigerant is heated in the second heat exchanger while passing through the amplifier, the fifth tube, the second heat exchanger, the fourth tube, the pressure reducing coil, the third tube, the amplifier, the second tube, the first heat exchanger and the first tube. Produced and cold air is produced in the first heat exchanger.

Although the above description has been made with reference to the preferred embodiments mentioned above, it will be readily apparent to those skilled in the art that various other modifications and variations can be made without departing from the spirit and scope of the invention. It is obvious that all such changes and modifications belong to the appended claims.

1 ... cold and hot dryer 3 ... drying room 4 ... door
10 ... compressor
20 ... cold temperature conversion part
1st heat exchanger
40.2nd heat exchanger
50 ... Amplifier
60 ... two-way filter
70 Pressure Reducing Coil 72 Pressure Reducing Pipe 74 Pressure Reducing Pipe
80 ... electronic valve 82 ... first assistant 84 ... second assistant

Claims (4)

A compressor 10 compressing the refrigerant;
A cold / hot converting unit 20 connected to the compressor and the refrigerant pipe 100 to selectively transfer the refrigerant compressed by the compressor to the first pipe 101 or the sixth pipe 106;
A first heat exchanger 30 connected to the cold / hot converting unit and the first pipe 101 to generate hot air or cold air by heat exchange of the refrigerant;
An amplifier (50) connected to the first heat exchanger and the second pipe (102) at the same time and connected to the cold / heat conversion unit and the sixth pipe (106) to expand and evaporate a refrigerant;
A second heat exchanger 40 connected through the amplifier and the fifth pipe 105 to generate warm air or cold air through heat exchange of the refrigerant;
It is installed between the third tube 103 connected to the amplifier and the fourth tube 104 connected to the second heat exchanger, and the first pressure reducing tube 72 and the fourth tube side of the third tube side are installed. A pressure reducing coil 70 formed between the two pressure reducing pipes 74; And
A pressure between the first pressure reducing pipe and the second pressure reducing pipe which is formed between the first auxiliary pipe 82 and the second auxiliary pipe 84 connecting the first pressure reducing pipe and the second pressure reducing pipe, respectively; An electron valve 80 for opening each auxiliary pipe 82 and 84 to be in equilibrium,
The refrigerant sent to the first tube from the cold / hot converting unit 20 may include a first heat exchanger, a second tube, an amplifier, a third tube, a reduced pressure coil, a fourth tube, a second heat exchanger, a fifth tube, an amplifier, and a third tube. Hot air is generated in the first heat exchanger and cold air is generated in the second heat exchanger while the six pipes are in turn.
The refrigerant sent to the sixth tube from the cold and hot conversion unit 20 is an amplifier, a fifth tube, a second heat exchanger, a fourth tube, a pressure reducing coil, a third tube, an amplifier, a second tube, a first heat exchanger, The hot and cold drying system characterized in that the hot air is generated in the second heat exchanger and the cold air is generated in the first heat exchanger while passing through one pipe in turn.
delete The method of claim 1,
Cold and dry system, characterized in that the bi-directional filter 60 for removing impurities in the refrigerant in the third pipe or the fourth pipe.
As a cold / dry dryer using the cold / dry drying system according to claim 1 or 3,
A first heat exchanger and a second heat exchanger are installed insulated from each other in the dryer,
Any one of the first heat exchanger and the second heat exchanger is a heat exchange with the outside air, the other is a cold or hot dryer using a cold and hot drying system, characterized in that configured to blow hot air or cold air to the drying chamber (3).

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