KR102499377B1 - Air dryer of multi step dehumidifying structure - Google Patents

Abstract

The present invention relates to an air dryer having a multi-stage dehumidification structure that is provided so that dehumidification is performed in multiple stages by a simple structure, greatly improving the dehumidification effect, and maximizing a heat exchange area by a winding structure of a cooling coil wound in a simple form. .
According to the present invention, an air conditioning unit 11 composed of a refrigerant compressor 14, a condenser 15, an expansion valve 16, and an evaporator 17 connected to each other by a refrigerant line 18 so that the refrigerant circulates and exchanges heat. )class; an air compressor 12 provided separately from the air conditioning unit 11 to compress external air; an air tank 13 capable of being filled with air compressed by the air compressor 12; A plurality of cooling coils 21 to 21 connected to the evaporator 17 so that low-temperature refrigerant circulates, and is installed inside the air tank 13 at regular intervals to sequentially lower the temperature of the air and condense it. 23) and; It is provided alternately with respect to the cooling coils 21 to 23 to increase the temperature of the air lowered by the cooling coils 21 to 23, and is connected to the condenser 15 to circulate the high-temperature refrigerant. An air dryer having a multi-stage dehumidifying structure including a plurality of heating coils 24 and 25 is provided.

Description

Air dryer of multi step dehumidifying structure}

The present invention relates to an air dryer having a multi-stage dehumidification structure, and more particularly, to an air dryer having a multi-stage dehumidification structure capable of greatly improving a dehumidifying effect by allowing dehumidification to be performed in multiple stages by a simple structure.

In general, an air dryer is a device designed to dry moisture contained in the air in the process of compressing external air by a compressor and supplying it to equipment such as an air gun or air cylinder. When moisture is contained in the air, the device itself is corroded. Due to the possibility of causing problems such as dehumidification or operation degradation, an air dryer is installed at the rear end of the compressor that compresses air to achieve dehumidification.

These air dryers are usually provided with a cooling and dehumidifying method in which a cooling coil connected to a cooler is installed in an air tank filled with air to cool the air inside the tank and condensate and remove moisture in the air. As the structure of the cooling coil installed in the air tank in the air dryer is provided in the form of a circular coil wound with the same diameter, the air passing through the center of the cooling coil is highly likely to pass as it is without heat exchange. In addition, due to the structure in which heat is exchanged one-time by a single cooling coil, not only the heat exchange efficiency is very low, but also the dehumidification efficiency of removing moisture contained in the air is poor.

Korean Registered Patent Publication No. 10-1081821 (2011. 11. 03)

The present invention is intended to solve the above-described problems, and the present invention is provided so that dehumidification is performed in multiple stages by a simple structure to significantly improve the dehumidification effect, and the heat exchange area is reduced by a winding structure of a cooling coil wound in a simple form. It is to provide an air dryer with a multi-stage dehumidification structure that can be maximized.

According to a feature of the present invention, an air conditioning unit composed of a refrigerant compressor 14, a condenser 15, an expansion valve 16, and an evaporator 17 connected to each other by a refrigerant line 18 so that the refrigerant circulates and exchanges heat. (11) and;

an air compressor 12 provided separately from the air conditioning unit 11 to compress external air;

an air tank 13 connected to inject air compressed by the air compressor 12 from the top and drawn from the bottom to accommodate a certain amount of air;

A plurality of cooling coils connected to the evaporator 17 and provided to circulate low-temperature refrigerant, installed inside the air tank 13 vertically at regular intervals to sequentially lower the temperature of the air and condense it ( 21~23) and;

It is arranged alternately up and down with respect to the cooling coils 21 to 23 to increase the temperature of the air lowered by the cooling coils 21 to 23, and is connected to the condenser 15 to circulate the high-temperature refrigerant. An air dryer having a multi-stage dehumidifying structure is provided, comprising a plurality of connected heating coils 24 and 25.

According to another feature of the present invention, the cooling coils (21 to 23) are provided with an air dryer having a multi-stage dehumidification structure, characterized in that they are wound in a cone shape downward from the inner wall surface of the air tank (13) to the center. do.

According to another feature of the present invention, the cooling coils 21 to 23 are provided with a multi-stage dehumidifying structure air dryer, characterized in that the coil (C) itself is manufactured in a spirally twisted state.

According to another feature of the present invention, an air dryer having a multi-stage dehumidification structure is provided, wherein the cooling coils 21 to 23 are provided in a state in which a plurality of coils C1 to C3 are closely arranged.

As described above, according to the present invention, the cooling coils 21 to 23 and the heating coils 24 and 25 are alternately arranged in the air tank 13, condensing moisture by cooling and condensing temperature by raising the temperature in multiple stages. There is an advantage in that the dehumidifying effect can be greatly increased due to the increase in

In addition, according to the present invention, the shape of the cooling coils 21 to 23 itself is provided in a cone shape that descends from the inner wall surface of the air tank 13 to the center, regardless of the inner wall surface or the center of the air tank 13. In addition to uniform dehumidification as a whole, there is an advantage in that the dehumidification effect can be increased by continuing the range and time in contact with the cooling coils 21 to 23 during the air flow process.

In addition, as the cooling coils 21 to 23 of the present invention are provided in a state in which one coil (C) itself is twisted in a spiral or a plurality of coils (C1 to C3) are arranged in close proximity, contact by the coil (C) itself There is an advantage in that the effect of removing moisture contained in the air can be further increased by maximizing the contact area and time in the process of passing air between the coils C1 to C3 disposed close to each other.

1 is a configuration diagram showing an embodiment of the present invention
Figure 2 is a perspective view showing some configurations according to the present invention
Figure 3 is a front cross-sectional view according to the configuration of Figure 2
Figure 4 is an exploded perspective view and front sectional view showing another embodiment of the present invention

The objects, features and advantages of the present invention described above will become more apparent through the detailed description that follows. Hereinafter, a preferred embodiment of the present invention will be described based on the accompanying drawings.

1 to 4 illustrate various embodiments of the present invention. As shown in FIG. 1, the air dryer 10 of the present invention compresses external air by an air compressor 12 and transfers it to an air tank 13, and the air contained in the air in the air tank 13 It is designed to remove moisture and supply it to equipment such as an air gun or an air cylinder. An air conditioning unit 11 for cooling or heating air is connected to the air tank 13, and the air conditioning unit 11 has a refrigerant It consists of a refrigerant compressor 14, a condenser 15, an expansion valve 16 and an evaporator 17 interconnected by a refrigerant line 18 connected to circulate.

Here, in the air tank 13, cooling coils 21 to 23 connected to a cooling line 19 extending from the evaporator 17 side, and a heating line 20 extending from the condenser 15 side ), and the heating coils 24 and 25 connected to the tank are built-in. The air tank 13 is installed upright, and the air delivered from the air compressor 12 is injected from the upper part of the tank, and the air from the lower part of the tank is injected. It is connected so that it can be drawn out, and a drain valve 26 for discharging water generated in the dehumidification process is installed on the lower side of the tank.

In the present invention, the cooling coils 21 to 23 may be composed of first to third cooling coils 21, 22, and 23 installed in plurality at intervals above and below the air tank 13, The heating coils 24 and 25 may be composed of first and second heating coils 24 and 25 positioned between the cooling coils 21 to 23. By this configuration, the air compressor 12 In the process of being compressed to a certain pressure by ), the air introduced into the air tank 13 in a state where the temperature has risen is dehumidified by condensing moisture in the air in multiple stages by the plurality of cooling coils 21 to 23 as described above. This is done, and the temperature of the air lowered by the cooling coils 21 to 23 is raised by the heating coils 24 and 25 to increase the condensation temperature, thereby increasing the temperature difference between the air temperature and the cooling coils 21 to 23. is formed to easily condense moisture in the air.

Specifically, in the air introduced into the air tank 13, in the first heat exchange process by the first cooling coil 21, some moisture in the air is condensed and falls downward, and the first heat exchange The air whose temperature has been lowered is heated to a certain temperature by the first heating coil 24 and is secondarily heat-exchanged by the second cooling coil 22 to dehumidify. The air lowered in the process of condensing moisture is raised by the second heating coil 25, and the moisture is condensed by the third cooling coil 23.

The specific shape and operating state of the cooling coils 21 to 23 of the present invention will be described with reference to FIGS. 2 to 4 as follows.

As shown in FIGS. 2 and 3, the cooling coils 21 to 23 of the present invention are wound in a downward cone shape from the inner wall side of the air tank 13 to the center, and the cooling coils 21 ~ 23) can be wound in a cone shape as described above using a copper tube having a normal circular cross section or using a coil (C) in which one copper tube is directly twisted into a spiral.

Due to the winding form of the cooling coils 21 to 23, the contact area with air is widened by the spiral coil (C) as described above and at the same time, the air flowing from the top to the bottom of the air tank 13 is released. Dehumidifying effect in that it can be uniformly contacted as a whole without heat loss from the wall surface to the central part, and the time or range of contact with the cooling coils (21 to 23) can be widened in the process of moving air up and down. Not only can it be increased, but it is also effective for condensed water droplets along the surface of the cone-shaped cooling coils 21 to 23 to concentrate and flow down toward the front end of the cone.

In addition, as shown in (a) and (b) of FIG. 4, the cooling coils 21 to 23 of the present invention wind a plurality of coils C1 to C3 in a cone shape as described above, respectively, and then It is manufactured by stacking, and as the cooling coils (21 to 23) are not made of single wires, but a plurality of coils (C1 to C3) are placed close to each other, air passes a complicated path through the gap between each coil (C1 to C3). In the process of passing, the area and time in contact with the coils C1 to C3 are formed to be long, so that the dehumidifying effect can be further enhanced.

The present invention described above is not limited by the foregoing embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible within a range that does not deviate from the technical spirit of the present invention. will be clear to those who have knowledge of

10: air dryer 11: air conditioning unit
12: air compressor 13: air tank
14: refrigerant compressor 15: condenser
16: expansion valve 17: evaporator
18: refrigerant line 21 to 23: cooling coil
24,25: heating coil C, C1, C2, C3: coil

Claims (4)

An air conditioning unit 11 composed of a refrigerant compressor 14, a condenser 15, an expansion valve 16, and an evaporator 17 connected to each other by a refrigerant line 18 so that the refrigerant circulates and exchanges heat;
an air compressor 12 provided separately from the air conditioning unit 11 to compress external air;
an air tank 13 connected to inject air compressed by the air compressor 12 from the top and drawn from the bottom to accommodate a certain amount of air;
A plurality of cooling coils connected to the evaporator 17 and provided to circulate low-temperature refrigerant, installed inside the air tank 13 vertically at regular intervals to sequentially lower the temperature of the air and condense it ( 21~23) and;
It is arranged alternately up and down with respect to the cooling coils 21 to 23 to increase the temperature of the air lowered by the cooling coils 21 to 23, and is connected to the condenser 15 to circulate the high-temperature refrigerant. An air dryer with a multi-stage dehumidification structure, characterized in that it comprises a plurality of connected heating coils (24, 25).
The multi-stage dehumidifying structure air dryer according to claim 1, wherein the cooling coils (21 to 23) are wound in a cone shape descending from the inner wall surface of the air tank (13) to the center.
[Claim 3] The multi-stage dehumidifying structure air dryer according to claim 2, wherein the cooling coils (21 to 23) are manufactured in a state in which the coil (C) itself is twisted in a spiral shape.
The multi-stage dehumidifying structure air dryer according to claim 2 or 3, wherein the cooling coils (21 to 23) are provided in a state in which a plurality of coils (C1 to C3) are closely arranged.

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