KR100869425B1 - Dehumidification type drying machine - Google Patents

Abstract

A dehumidification type drying machine is provided to be used variously in order to meet the needs of user by independently a dryer relative to a hermetic space in which object to be dried is carried. A first condenser(31) is installed on internal exhaust port of the return duct(2) A second condenser(32) can selectively use the first condenser and the second condenser by equipping independent cooling fan(33) and then being installed on outer surface. An evaporator(20) is installed on an inlet port(2a) of a circulation duct and includes a heat absorption part(10a) of a heat pipe on its front. A heat radiation unit(10b) is positioned between the evaporatior and the first condenser. A heater(40) is installed on the exhaust port of the circulation duct.

Description

Dehumidifying Dryer {DEHUMIDIFICATION TYPE DRYING MACHINE}

1 is a cross-sectional view showing a conventional dehumidifying dryer

2 is an overall configuration diagram of a dehumidifying dryer according to the present invention

Figure 3 is a perspective view showing the main configuration of the dehumidifying dryer according to the present invention

Figure 4 is a cross-sectional view showing the main configuration of the dehumidifying dryer according to the present invention

5 to 7 is a state diagram showing each embodiment of the dehumidifying dryer according to the invention

*** Explanation of symbols for the main parts of the drawing ***

1: dryer 2: circulation duct 2a: air intake

2b: exhaust port 5: blower 10a: heat absorbing portion

10b: radiator 20: evaporator 21: collecting plate

22 drain pipe 25 compressor 31 first condenser

32: second condenser 33: cooling fan 35: expansion valve

37: switching valve 38a, 38b: check valve 40: heater

50: controller 55: temperature sensor 60: drying chamber

70: drying room 80: plastic house 90: dry building

The present invention relates to a dehumidifying dryer using a heat pump system, and more particularly, to remove moisture contained in air by circulating air in an enclosed space in which a dry matter is loaded to the evaporator side of a heat pump system to induce condensation. In the construction of the dehumidifying dryer for drying the dry matter, the condenser of the heat pump system is formed by separating the first condenser and the second condenser, the first condenser is installed in the air circulation path of the enclosed space and the second condenser By installing outside the air circulation path, the drying temperature can be freely set according to the type of the dry matter, and the heat absorbing part and the heat dissipating part of the heat pipe are respectively positioned before and after the evaporator to widen the range of drying temperature where dehumidification is possible. In addition to the dehumidifying dryer that can improve the drying efficiency .

Generally, various types of drying methods such as hot air drying, cold air drying, and freeze drying are used for drying various industrial products and agricultural and marine products. Among them, hot air drying method is 50 to 80 ° C for dry matters loaded in a drying chamber. Continuously supplying hot air to dry the dry matter by evaporating the moisture contained in the dry matter and releasing it to the atmosphere, the hot-air drying method as described above can dry the dry matter relatively easily, so as to While there is an advantage in drying, drying dry agricultural products or aquatic products that are heat-sensitive causes heat deformation of agricultural and marine products, which not only alters the intrinsic taste and aroma of agricultural and marine products, but also destroys nutrients. The disadvantage is that the application is limited.

In addition, the hot air supplied to the drying chamber includes a large amount of moisture in accordance with the evaporation of the moisture of the dried material, and the hot air including the moisture must be discharged to the atmosphere, so that there is a disadvantage of heat loss and the continuous air is continuously introduced. There is also a problem in which the dry matter is contaminated by impurities.

In the cold air drying method, the air inside the loaded drying chamber of the dried material is kept at 0 to 50 ° C. to continuously circulate, and the dry air is circulated by removing moisture contained in the circulating air using a heat pump system. In order to promote the drying, there is a disadvantage in that the drying speed is slower than hot air drying, but the dry air can be dried at a relatively low temperature compared to hot air drying, which does not cause thermal deformation of the dry bar. The configuration of a conventional dehumidifying dryer according to a drying method will be described in detail with reference to FIG. 1 below.

The conventional dehumidifying dryer 100 shown in FIG. 1 is a conventional heat pump having four components, an evaporator 131 and a compressor 132 which are a low temperature heat exchanger, a condenser 133 and an expansion valve 134 which are a high temperature heat exchanger. By using the system 130, the working fluid refrigerant circulates the four components to repeat the change of evaporation-compression-condensation-expansion, and the refrigerant absorbs and evaporates the external heat in the evaporator 131. Moisture contained in the air inside the circulation passage 120 which is deprived of condensation is condensed on the outside of the evaporator 131 by the condensation phenomenon and is discharged to the outside of the dryer 100, resulting in dry air inside the drying chamber 110. By circulating to facilitate the drying of the object to be dried (150).

In addition, the refrigerant in the dry vaporized state by the evaporator 131 is adiabatic compressed by the compressor 132 to become a refrigerant in a superheated steam state at high temperature and high pressure, and the refrigerant passing through the compressor flows into the condenser 133 to condense. The latent heat is released into a saturated liquid state, and the released heat is absorbed into the circulation passage 120 and introduced into the drying chamber 110. The refrigerant in the saturated liquid state is passed through the expansion valve 134 to form a low-temperature wet steam. It is repeated to flow into the evaporator 131 in a state. In the drawing, reference numeral '140' is a blowing fan 140.

However, in the case of the conventional dehumidifying dryer 100 as described above, the internal air of the drying chamber 110 flows into the circulation passage 120 to deprive heat of the evaporator 131 and then recover the heat deprived of the condenser 133 again. Therefore, it can be seen that the internal temperature is maintained in a certain range when neglecting some heat loss, which means that the range of drying temperature in the conventional dehumidifying dryer 100 is limited to a specific dry matter. In addition to its role as a dryer, there was a problem of incompatibility with respect to the dry matter for various kinds.

In addition, the conventional dehumidifying dryer 100 that cannot control the drying temperature as described above may not actively cope with this when the internal temperature of the drying chamber 110 changes due to external factors. Even if the dryer 100 is exposed to the outside and the temperature inside the drying chamber 110 rises, the conventional dryer 100 does not have a function of maintaining an appropriate temperature, resulting in thermal deformation of a dry item such as agricultural and aquatic products. There was this. In addition, as described above, when the internal temperature of the drying chamber 110 is high, even if the internal air passes through the evaporator 131, there is a problem in that the drying efficiency is not sufficiently cooled to induce condensation.

On the other hand, in the case of the conventional dehumidifying dryer 100 that can not set the drying temperature as described above, it was not possible to dry the dried material such as yellow or Guamegi to be dried while repeatedly freezing and thawing in the natural state, In addition, since the heat pump system 130 for dehumidification and the drying chamber 110 on which the object 150 is mounted are integrally formed, the dryer 100 may not be used in accordance with various conditions of use.

An object of the present invention for solving the problems as described above, it is possible to freely set the drying temperature inside the sealed space in which the object to be loaded, it is possible to dry the various types of the dry object and also the closed space by external factors Even if the internal temperature changes, the proper drying temperature can be maintained and the drying efficiency can be improved by inducing condensation at low temperature even if the internal temperature of the enclosed space is high. It can be used for drying specific aquatic products, such as emperor and guamegi, which are repeatedly dried by freezing and thawing by making changes, and by forming an independent dryer for the enclosed space in which the dry matter is loaded. To configure a dehumidifying dryer that can be used to deform Never.

The dehumidifying dryer according to the present invention for achieving the above object is an evaporator and a condenser of a conventional heat pump system in a circulation duct provided with a blower to circulate internal air in a closed space in which a dry object is loaded. In the dehumidifying dryer provided with, the condenser of the heat pump system is formed of the first condenser and the second condenser, the first condenser is installed inside the circulation duct, the second condenser is installed outside the circulation duct The first condenser and the second condenser may be selected, and the heat absorbing portion and the heat dissipating portion of the heat pipe may be positioned before and after the evaporator, respectively, and are formed to be detached from a separate sealed space in which the dry matter is loaded. Characterized in the configuration of the wet dryer, below with reference to Figures 2 to 4 dehumidifying dryer according to a preferred embodiment of the present invention Review the configuration in detail.

The dehumidifying dryer 1 according to the present invention is not provided with a drying chamber integrally like a conventional dryer, but is configured to be detachably installed in a separate sealed space in which the dry matter is loaded in various forms. Bar, in the configuration of the dryer (1) according to the present invention first look at the configuration of the circulation duct (2) in communication with the separate sealed space, the intake port (2a) in communication with the separate sealed space in the circulation duct (2) And an exhaust port 2b, and a blower 5 is formed at one side of the inlet port 2a or the exhaust port 2b to allow the internal air of the closed space communicating with the circulation duct 2 to circulate. On the other hand, the inlet port 2a is formed below the dryer 1, the exhaust port 2b is formed above the dryer 1, and the blower 5 is on either side of the inlet port 2a and the exhaust port 2b. It may be formed on.

In addition, the heat absorbing portion 10a and the heat dissipating portion 10b, which are both ends of the heat pipe, and the evaporator 20 and the first condenser 31 of the heat pump system are installed inside the circulation duct 2 configured as described above. In the following, the configuration of the heat pipe and the heat pump system will be described in detail. First, referring to the configuration of the heat pump system, the heat pump system of the present invention passes through the evaporator 20 which is a low-temperature heat exchanger. The first condenser 31, which is a high temperature part heat exchanger, is formed on the internal exhaust port 2b side of the circulation duct 2, and the second condenser 32 having an independent cooling fan 33 is circulated. It is installed outside the duct (2).

In addition, a pipe is formed between the evaporator 20 and the first condenser 31 and the second condenser 32 so that the refrigerant circulates, and the compressor 25 is discharged from the evaporator 20 in the pipe in which the refrigerant in the dry saturated vapor state is discharged. ) And a heat exchanger is compressed by the compressor (25) to discharge the refrigerant in the superheated steam state of high temperature and high pressure to form a switching valve (37) to operate the overheated steam state by the operation of the switching valve (37). The refrigerant may be selectively introduced into the first condenser 31 or the second condenser 32, and each of the pipes in which the saturated liquid refrigerant is discharged from the first condenser 31 or the second condenser 32 may be discharged. The check valves 38a and 38b are formed to prevent the refrigerant discharged from one condenser from flowing back to the other condenser, and an expansion valve is provided in the pipe through which the refrigerant passed through the check valves 38a and 38b flows into the evaporator 20. (35) to form a low temperature low pressure And such that the group state refrigerant flowing back to the evaporator 20.

In the above, the use of the first condenser 31 and the second condenser 32 is selectively performed by the operation of the switching valve 37. The switching valve 37 is known to operate by the conventional controller 50. 3 port 2-way directional valve can be used, the controller 50 is a switching valve according to the temperature of the circulating air detected from the temperature sensor 55 installed on the inlet port (2a) side of the circulation duct (2) (37) to control.

Meanwhile, the refrigerant absorbs and vaporizes heat in the circulation duct 2 in the evaporator 20. At this time, moisture contained in the air inside the circulation duct 2 from which the heat is removed is condensed. The condensed water is discharged to the outside through the drain pipe 22 through the collecting plate 21 formed in the evaporator 20.

Referring to the configuration of the heat pipe, the heat pipe is a heat transfer tube that absorbs heat from one end and transfers it to the other end, the dehumidifying dryer 1 according to the present invention is the both ends of the heat pipe inside the circulation duct (2) Bar is installed separately, one end of the heat absorbing portion (10a) of the heat pipe is installed in front of the evaporator 20 and the other heat dissipating portion (10b) of the heat pipe between the evaporator 20 and the first condenser (31). In this case, even though air having a relatively high temperature is introduced into the circulation duct 2, the temperature deviation of the cooling is large as it is first cooled in the heat absorbing portion 10a of the heat pipe and then cooled again in the evaporator 20. Effective condensation can be induced, and consequently, the dehumidification efficiency can be increased, and the heat absorbed by the heat absorbing portion 10a is discharged from the heat radiating portion 10b so that there is no heat loss.

And the exhaust port (2b) side of the circulating duct (2) by installing a normal heater 40 so that it can be selectively used when high temperature drying is required according to the type of the object to be dried, the heater 40 is connected to the controller 50 To control automatically.

Looking at the operation of the dehumidifying dryer 1 according to the present invention configured as described above with reference to Figure 4, the dehumidifying dryer 1 according to the present invention is the inlet port (2a) and the exhaust port of the circulation duct (2) (2b) is attached to communicate with a separate sealed space in which the dry matter is loaded, and the air inflow into the inlet port 2a by the blower 5 installed in the circulation duct 2 of the dryer 1 is used. The internal air of the space is primarily cooled by the heat absorbing portion 10a of the heat pipe, and the cooled internal air is cooled again by the evaporator 20 of the heat pump system so that moisture contained in the air is evaporated by the evaporator 20. Condensation on the outside and dehumidification of the internal air is performed, and moisture condensed on the outside of the evaporator 20 is discharged to the outside of the dryer 1 through the collecting plate 21 and the drain pipe 22. Air passes through the heat radiating portion 10b of the heat pipe. After recovering the heat lost from the endothermic portion (10a), the heat absorbed by the evaporator 20 from the first condenser 31 is recovered to circulate the dried air to the closed space without heat loss to the dry matter To dry.

In addition, according to the dehumidifying type rolling machine 1 according to the present invention, the heating temperature may be increased by driving the heater 40, and the second condenser 32 may be driven without driving the first condenser 31. By dissipating the heat absorbed by the evaporator 20 to the outside to lower the drying temperature, by controlling the heater 40, the first condenser 31 and the second condenser 32 to a single dry matter As it can change the drying temperature, it is possible to dry various kinds of dry matters with various conditions, and to keep the proper temperature by actively coping with the change of the internal temperature caused by external factors during the drying operation. In addition, prior to the dehumidification action by the cooling of the evaporator 20, by increasing the width of the cooling by the primary cooling by the heat absorbing portion 10a of the heat pipe, the width of the dehumidifying temperature can be widened and the dehumidification efficiency can be improved. .

Hereinafter, the characteristic operation of the dryer 1 according to the present invention will be described in more detail according to each embodiment with reference to FIGS. 5 to 7. As shown in FIG. 5, thermal deformation of the drying chamber 60 in a box shape is shown. When the manufactured product 90 is not concerned, the heater 90 may be driven together with the first condenser 31 of the heat pump system to dry the dried product 90 more quickly and efficiently at a high temperature. In this case, even when the internal temperature of the drying chamber 60 is increased, sufficient dehumidifying effect may be obtained as the air primarily cooled by the heat absorbing portion 10a of the heat pipe flows into the evaporator 20 of the heat pump system.

On the other hand, in the case of agricultural products that are concerned about thermal deformation of the dry object 90 loaded in the drying chamber 60, the dry object 90 can be dried in a general cold air drying environment by not driving the heater 40. In the case of the to-be-dried object 90 which needs to be dried at a temperature lower than a general cold air drying temperature, the drying chamber absorbed by the evaporator 20 by driving the second condenser 32 without driving the first condenser 31 ( 60) The internal temperature can be kept low by releasing the heat inside.

6, when a dry object 90 that needs to be repeatedly frozen and thawed is loaded in a drying room 70 of a building type, such as an emperor or guamegi, the second condenser 32 is driven to drive the dry matter ( The dryer (1) according to the present invention is repeated by driving the first condenser (31) in the frozen state to maintain the frozen state for a predetermined time, and then repeating the process of defrosting the dried object by driving the heater (40). By controlling the heater 40, the first condenser 31, and the second condenser 32 of the heating unit to appropriately change the internal temperature of the drying chamber 70, it is also possible to dry certain fish products such as yellow and Guamegi.

In addition, as shown in FIG. 7, when the dry object 90 such as red pepper is to be dried in the inside of the vinyl house 80, the temperature of the inside of the vinyl house 80 during the daytime due to external factors such as solar heat. There is a problem that is too high, according to the dryer (1) according to the present invention, even if the temperature inside the vinyl house 80 is overheated by driving the second condenser 32 of the heat pump system can maintain an appropriate temperature, as a result It is possible to prevent thermal deformation of the object to be dried (90). On the other hand, even if the internal temperature of the vinyl house 80 is increased due to external factors, the air cooled primarily by the heat absorbing portion 10a of the heat pipe flows into the evaporator 20 of the heat pump system to obtain a sufficient dehumidifying effect. Can be.

 Therefore, according to the dryer 1 according to the present invention, as the drying temperature can be freely set, the drying operation can be performed by setting the drying temperature according to the characteristics of the various to-be-dryed objects 90, as well as the dry matter to be loaded. As the closed space and the dryer are separately configured, the drying chamber 60 in the form of a box as shown in FIG. 5, the drying chamber 70 in the form of a building as shown in FIG. 6, or the plastic house 80 as shown in FIG. 7. It can be installed and used properly according to its usage environment.

According to the dehumidifying dryer according to the present invention as described above, it is possible to freely set the drying temperature inside the sealed space in which the dry matter is loaded, so as to repeat freezing and thawing as well as industrial products or agricultural products that are not susceptible to thermal deformation. It is possible to dry various kinds of dry items such as yellow and guamegi, and to maintain proper drying temperature even if the temperature inside the sealed space is changed by external factors, and to induce condensation at low temperature even if the inside temperature of the closed space is high. As it is possible to expand the range of temperature that can be dried, there is an effect that can improve the drying efficiency.

In addition, the dryer has an independent configuration with respect to the sealed space in which the object to be loaded has an effect that can be applied to various types of closed space according to the user's conditions.

Claims (3)

A dehumidifying dryer provided with an evaporator and a condenser of a conventional heat pump system in a circulation duct provided with a blower to circulate internal air in a sealed space in which a dry matter is loaded; The condenser of the heat pump system is formed by dividing the first condenser 31 and the second condenser 32, the first condenser 31 is installed on the internal exhaust port side of the circulation duct 2, the second condenser ( 32 is provided with an independent cooling fan 33 to the outside of the circulation duct (2) to selectively use the first condenser 31 and the second condenser 32, the evaporator 20 Is installed on the inlet port side of the circulation duct 2, the heat absorbing portion (10a) of the heat pipe is located in front of the evaporator 20, the heat dissipation of the heat pipe between the evaporator 20 and the first condenser 31 Dehumidifying dryer characterized in that the portion (10b) is located, the heater 40 is installed on the exhaust port side of the circulation duct (2). The method of claim 1; The first condenser 31 and the second condenser 32 to form a switching valve 37 in the pipe for introducing the refrigerant in the superheated steam state and the first condenser 31 and the operation according to the operation of the switching valve 37 The second condenser 32 may be selectively used, but the switching valve 37 uses a 3-port 2-way direction switching valve operated by the controller 50, and the controller 50 may include a circulation duct ( Dehumidifying dryer characterized in that to control the switching valve 37 by detecting the temperature of the circulating air from the temperature sensor 55 installed on the inlet side of 2). The method of claim 1; The dryer is a dehumidifying dryer, characterized in that formed to be detached with respect to a separate closed space in which the object to be loaded.

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