KR102151234B1 - Dehydration Apparatus - Google Patents

Abstract

The present invention relates to a dehydration apparatus capable of supplying dried air by absorbing moisture from air. More specifically, the dehydration apparatus includes: a dehydration case which has a disc shape, can be rotated, and has a disc-shaped dehydration plate seated on one surface thereof; a first air intake pipe which is combined with one side of the dehydration case and into which air is introduced; and a second air intake pipe which is combined with the other side of the dehydration case and from which air is discharged.

Description

Dehydration Apparatus}

The present invention relates to a dehydration apparatus capable of supplying dried air by absorbing moisture from air.

Patent Document 001 is a refrigerant compressor installed on the top of the bottom frame to compress gaseous refrigerant, a condenser connected to the refrigerant compressor and installed on one side of the bottom frame to liquefy the refrigerant in a natural convection method, and the refrigerant line of the condenser A filter dryer for removing impurities, an expansion capillary tube connected to the filter dryer for adiabatic expansion of the liquid refrigerant from the condenser, a fixed plate having fixed legs fixed on the top of the bottom frame, and an upper portion of the fixed plate A cooling tank insulated from the outside in a cylindrical shape to heat exchange between high temperature compressed air and refrigerant, and a refrigerant line connected to the expansion capillary is connected to a refrigerant evaporator inside the cooling tank, and one side of the refrigerant evaporator is connected to the refrigerant compressor. A refrigerant line in the cooling tank, water as a heat transfer medium for heat exchange between the refrigerant and compressed air in the cooling tank, and a secondary heat exchanger installed in the cooling tank to perform heat exchange between the refrigerant and compressed air to actually dehumidify, The primary heat exchanger in which the high-temperature compressed air that is connected to the secondary heat exchanger and enters the refrigeration dryer and the compressed air cooled by heat exchange in the secondary heat exchanger are heat-exchanged, and condensed water generated by cooling the compressed air in the secondary heat exchanger. A technology to include as a drain device to discharge is proposed.

Patent document 002 describes a first tank and a second tank in which an adsorbent is accommodated, a first pipe connected to a compressed air generating device, and a second pipe connected to one end of the first tank through the first pipe and a shuttle valve. A third conduit, a fifth conduit connected to one end of the second tank through the first conduit and the shuttle valve, and connected to the other end of the first tank, and having a first main check valve on the conduit A pipe, one side is connected to the third pipe, the other side is a fourth pipe connected to a system that requires dehumidified compressed air, and one side is connected to the other end of the second tank, and a second main on the pipe A check valve is provided, and the other side is a sixth pipe connected to the fourth pipe, and a seventh pipe branching and meeting each other from the third pipe and the sixth pipe, and having a flow rate control means on the pipe, An eighth pipe branched from the second pipe line and connected to the first muffler and provided with a first purge valve on the pipe line, and a second pipe line branched from the fifth pipe line and connected to the second muffler, and a second purge valve on the pipe line A technology including a ninth pipe is provided and a control unit for controlling opening/closing of the first purge valve and the second purge valve.

Patent document 003 is a liquid storage tank; First and second intake filters for removing impurities flowing into the inlet; First and second dehumidifiers for dehumidifying by adsorbing moisture of the intake air introduced into the first and second intake filters, respectively, or performing a heating regeneration or cooling regeneration operation; A path controller for controlling a path of the air dehumidified by the first or second dehumidifier; An electric heater for heating compressed air to supply dry air for regeneration; An air filter filtering dry air provided from the path control unit; A check valve for introducing dry air passing through the air filter into the liquid storage tank; A third pneumatic valve for providing compressed air to the electric heater; A second pneumatic valve for providing dry air output from the electric heater; A control unit for controlling dehumidification and regeneration operations, controlling the first and second dehumidifiers to operate in an alternating operation of dehumidification and regeneration, and controlling operations of the path control unit, the second pneumatic valve, and the third pneumatic valve; A technology including a valve driving unit for driving the path control unit and the second and third pneumatic valves under the control of the control unit is provided.

Patent document 004 is a first chamber accommodating an adsorbent, a second chamber accommodating an adsorbent, a main suction line for sucking air from the outside, a first suction line leading from the main suction line to the first chamber, and the main suction A second suction line leading from the line to the second chamber, the main suction line, and a directional valve that selectively connects or blocks between the first suction line and the second suction line, and is installed on the main suction line to provide temperature A temperature sensor for measuring a, a main discharge line for discharging air to the outside, a first discharge line connected from the first chamber to the main discharge line, a second discharge line connected from the second chamber to the main discharge line , A main regeneration line branched from the main discharge line, a first regeneration line connected from the main regeneration line to the first chamber, a second regeneration line connected from the main regeneration line to the second chamber, the first chamber A first exhaust line opened to the outside from the second chamber, a second exhaust line opened to the outside from the second chamber, a first exhaust valve for opening and closing the first exhaust line, a second exhaust valve for opening and closing the second exhaust line, and And a controller for controlling the directional valve, the first exhaust valve, and the second exhaust valve, wherein the directional valve connects the main suction line and the first suction line for a preset time, , A first dehumidifying step of controlling the first exhaust valve to close the first exhaust line and controlling the second exhaust valve to open the second exhaust line, and the second for a preset time after the first dehumidifying step. A dynamic pressure step of controlling an exhaust valve to close the second exhaust line, and the direction switching valve connects between the main suction line and the second suction line for a predetermined time after the dynamic pressure step, and the first exhaust valve is A technique in which a second dehumidification step of controlling to open the first exhaust line is performed and the time of the dynamic pressure step is varied according to a measured value of the temperature sensor is proposed.

KR 10-2011-0045436 A (04 May 2011) KR 10-1817154 B1 (January 4, 2018) KR 10-2018-0086814 A (August 1, 2018) KR 10-2036143 B1 (October 18, 2019)

The present invention relates to a dehydration apparatus capable of supplying dried air by absorbing moisture from air.

It is intended to solve the problems of the prior invention, the present invention is a disk-shaped, rotated, a dewatering case 100 in which a disk-shaped dewatering plate 110 is seated on one surface;, and coupled to one side of the dewatering case 100 , An air intake pipe 310 into which air is introduced; It is coupled to the other side of the dehydration case 100, an air discharge pipe 320 through which air is discharged.

The present invention is an invention of a dehydration device, and the dehydration case 100 presented above;, an air intake pipe 310;, an air discharge pipe 320; in the invention, the dehydration case 100 is an inner ring located at the center of rotation (120);, an outer ring 130 formed on the outer periphery;, a blade 140 connecting the inner ring 120 and the outer ring 130, contacting the dewatering plate 110, and formed of a plurality of plate materials; Is added.,

The present invention is an invention for a dehydration device, and a rotating means 200 for rotating the dehydration case 100 in the invention consisting of a dehydration case 100;, an air intake pipe 310;, an air discharge pipe 320; ); is added.

The present invention is an invention for a dehydration device, and the dehydration case 100 presented above;, air intake pipe 310;, air outlet pipe 320; air intake pipe 310 and air outlet pipe 320 on both ends of the invention. ) Is connected, the casing 400 accommodating the dehydration case 100 therein; A flow path 141 formed on the surface of the blade 140 and communicating with the outer ring 130; A fixed body 500 detachably coupled to the casing 400 and formed at a position coincident with the dehydration case 100; A collecting groove 510 formed in the fixture 500 and communicating with the flow path 141; An outlet 520 communicating with the collecting groove 510 and communicating with the outside is added.

The present invention is an invention for a dehydration device, in the dehydration system according to the invention consisting of a dehydration case 100;, an air intake pipe 310;, an air discharge pipe 320; Arranged in series, coupled to the air intake pipe 310, a pneumatic generator 700 for generating compressed air; consisting of a configuration including.

The present invention can be discharged by drying air containing moisture.

In the present invention, a dehydration plate is formed in the flow direction of the air to remove moisture from discharged air.

The present invention can remove moisture and foreign matter while maintaining the flow rate of air.

The present invention can penetrate through the blade without disturbing the flow rate and flow of air.

According to the present invention, dry air can be simply supplied by combining it with an existing discharge pipe through which air is discharged.

In the present invention, the moisture of the air absorbed by the dehydration plate can be discharged to the outside by centrifugal force.

1 is a perspective view of a dewatering device of the present invention.
Figure 2 is an exploded perspective view of the dehydration device shown in Figure 1;
Figure 3 is a cross-sectional view showing the dehydration device of the present invention.
Figure 4 is a perspective view showing a dehydration case of the present invention.
Figure 5 is a perspective view showing the dehydration plate of the present invention.
6 is a cross-sectional view showing a combined state of a plurality of dehydration cases according to another embodiment of the present invention.
7 is an exemplary view showing a state in which the dehydration device of the present invention is coupled to a pneumatic generator.

Hereinafter, in order to describe in detail enough that a person of ordinary skill in the art can easily implement the present invention, a most preferred embodiment of the present invention will be described in detail.

The numbers cited in the following examples are not limited only to the objects of reference, and may be applied to all examples. An object that exhibits the same purpose and effect as the configuration presented in the examples corresponds to an equal substitution object. The upper concept presented in the examples includes the lower concept object that is not described.

(Embodiment 1-1) In the present invention, in a dehydration device, a dehydration case 100 in which a dehydration plate 110 in a disc shape is seated in a disc shape, rotates, and accommodates the dehydration case 100 An air intake pipe 310 which is coupled to one side of the casing 400 and into which air is introduced; It includes; an air discharge pipe 320 is coupled to the other side of the casing 400, air is discharged.

(Example 1-2) The dehydration apparatus of the present invention in Example 1-1, wherein the dehydration plate 110 has a plurality of pores, and a dehydrating agent is attached to the inside and the surface.

(Example 1-3) The dehydrating apparatus of the present invention in Example 1-2, wherein the dehydrating agent is formed of silica gel.

(Embodiment 1-4) In Embodiment 1-1, the dehydration apparatus of the present invention includes a bearing positioned between the air intake pipe 310 and the air discharge pipe 320 coupled to the casing 400.

(Embodiment 1-5) The dewatering apparatus of the present invention in Embodiment 1-4, wherein the bearing is formed of a sliding bearing made of a Teflon material.

The present invention relates to a dehydration device, specifically connected to an air pump to which air is supplied, and to remove moisture supplied with air. The dehydration apparatus of the present invention absorbs moisture sprayed together with air supplied from an air pump formed of an air dryer and an air compressor used in industrial sites and buildings. At this time, the air supplied from the air pump contains oil components, moisture, etc., including foreign substances, which may reduce the life or function of the production line and various pneumatic devices in the case of industrial sites, resulting in fatal consequences for productivity or quality. Can cause. In addition, the condensed water is discharged to the outside by absorbing moisture and oil from the air supplied by the air pump. Such a dehydration device is formed between the air gun and the condenser connected to the air pump, and a dehydration case 100 on which a disc-shaped dehydration plate 110 is seated is formed on one surface. The dehydration plate 110 formed by being seated in the dehydration case 100 has a plurality of pores, and a dehydrating agent formed of silica gel is attached to the inside and the surface thereof. The dehydration plate 110 has a disk shape and penetrates air as it rotates, but can absorb moisture and oil components. In addition, an air intake pipe 310 into which air is injected and an air discharge pipe 320 through which air is discharged are formed on both sides of the casing 400. In addition, the air intake pipe 310 and the air discharge pipe 320 are coupled by a casing 400 and a bearing, and the bearing is formed of a sliding bearing made of a Teflon material.

Accordingly, the dehydration apparatus has a characteristic of supplying dried air by having a dehydration plate 110 formed therein to absorb moisture and oil components of air supplied by the air pump.

(Embodiment 1-6) In Embodiment 1-1, the dewatering apparatus of the present invention includes the dewatering plate 110 formed in a corrugated shape in which a plate material is zigzag overlapped.

(Example 1-7) In Example 1-6, the dehydration apparatus of the present invention includes a plurality of thin plates in which a plurality of thin plates are superimposed.

(Example 1-8) The dehydration apparatus of the present invention in Example 1-7, wherein the dehydration plate 110 is formed in a conical shape; includes.

The present invention relates to a dehydration plate 110, specifically, the dehydration plate 110 is formed in a disk shape and a corrugated shape, and is formed in a conical shape so as to be inclined in a direction in which air is discharged. The dehydration plate 110 absorbs air but absorbs moisture as a plurality of pores are formed. In addition, the dehydration plate 110 is formed by overlapping a plurality of thin plates, and effectively absorbs moisture when the dehydration plate 110 rotates. In addition, the dehydration plate 110 is formed in a zigzag-overlapping wrinkle shape to increase an area for absorbing moisture and oil components. At this time, the dehydration plate 110 is formed equal to or smaller than the inner diameter of the dehydration case 100 and does not come into contact with the dehydration case 100 when the dehydration plate 110 rotates. In addition, the dehydration plate 110 is formed inside the dehydration case 100 at equal intervals to effectively absorb moisture from the air. In addition, the dehydration plate 110 may increase the amount of moisture absorption by overlapping a plurality of thin plates, and the center of the dehydration plate 110 is formed in a conical shape protruding toward the air intake pipe 310 through which air is sucked. The dehydration plate 110 is guided to be guided to the outer circumferential surface.

Therefore, the dehydration plate 110 is formed in a disk shape, and has a feature of guiding moisture to move to the outside as it is formed in a cone shape.

(Embodiment 2-1) The present invention relates to a spinneret, and in Embodiment 1-1, the spinneret case 100 includes an inner ring 120 positioned at a center of rotation; An outer ring 130 formed on the outer periphery; And a blade 140 that connects the inner ring 120 and the outer ring 130 and is in contact with the dewatering plate 110 and is formed of a plurality of plate materials.

(Embodiment 2-2) In Embodiment 2-1, the dewatering apparatus of the present invention includes the blade 140 inclined in the airflow direction.

(Example 2-3) In Example 2-1, the dewatering apparatus of the present invention includes a blade 140 formed in a curved surface between the inner ring 120 and the outer ring 130.

(Embodiment 2-4) According to Embodiment 2-1, the dehydration apparatus of the present invention includes a weight formed on the outer ring 130 and formed in a cylindrical shape.

The present invention relates to the dehydration case 100, and specifically, the dehydration case 100 is coupled to the dehydration plate 110 on the front side, and discharges moisture absorbed by the dehydration plate 110 to the outside. This dehydration case 100 is formed on the rear surface of the dehydration plate 110, and moisture absorbed by the dehydration plate 110 is discharged to the outside by centrifugal force. This means that as the dehydration case 100 rotates together with the dehydration plate 110, moisture absorbed by the dehydration plate 110 is discharged to the outside by centrifugal force. At this time, the dehydration case 100 has a blade 140 formed at the rear of the dehydration plate 110, and the blade 140 includes an inner ring 120 and a plurality of blades 140 formed at the center of the plurality of blades 140 It is formed of an outer ring 130 connecting the outer periphery. The blade 140 is formed to be inclined in the air flow direction, and smoothly guides the flow of air according to the rotation of the blade 140. And the blade 140 is formed in a curved surface between the inner ring 120 and the outer ring 130, and improves the flow rate of air. In addition, the outer ring 130 is formed with a weight to effectively rotate the blade 140 by the rotation means 200 described later. The weight is formed on the outer ring 130 and is preferably formed in a cylindrical shape.

Accordingly, the dehydration case 100 of the present invention has a feature in which the blade 140 rotates between the inner ring 120 and the outer ring 130 at the rear of the dehydration plate 110 in order to smooth the flow of air.

(Embodiment 3-1) The present invention relates to a dehydration apparatus, and in Embodiment 2-1, a rotating means 200 for rotating the dehydration case 100; includes.

(Embodiment 3-2) In the dehydration apparatus of the present invention, in Example 3-1, the rotating means 200 is located in the center of the inner ring 120, and is axially coupled to the center of the air intake pipe 310. Rotation shaft 210; It includes; a drive motor 240 coupled to the rotation shaft 210.

The present invention relates to a rotating means 200, specifically, the rotating means 200 rotates the dehydration case 100 to discharge moisture to the outside by centrifugal force. This rotation means 200 is formed to be in contact with the rear surface of the dewatering plate 110, and the blade 140 formed between the inner ring 120 and the outer ring 130 rotates. At this time, the dehydration plate 110 and the inner ring 120 on which the blade 140 is formed are connected by a rotation shaft 210, and the rotation shaft 210 is various so as to connect the plurality of dehydration plates 110 and the inner ring 120 Formed in length. In addition, the rotation shaft 210 may be formed by being divided into a plurality to be coupled to the inner ring 120, and one end is preferably formed in a curved surface so as to lower air resistance. In addition, a driving motor 240 is formed at one end of the rotating shaft 210, and the driving motor 240 is formed to be small and rotated by power so as not to interfere with the flow of air. In addition, the driving motor 240 is formed outside the dehydration case 100 so that a plurality of connection shafts are connected to each other to rotate the rotation shaft 210 connecting the dehydration plate 110 and the inner ring 120.

Accordingly, the rotating means 200 of the present invention has a characteristic in that a drive motor 240 and a rotation shaft 210 are formed to rotate the dehydration case 100 at the rear of the dehydration plate 110.

(Embodiment 3-3) In the dehydration apparatus of the present invention, in Embodiment 3-1, the rotating means 200 is attached to the outer ring 130, the magnetic force is fixed, and a plurality of first magnetics ( 220); And a second magnetic 230 installed adjacent to the first magnetic, formed in a plurality, and having magnetic force changed.

The present invention relates to the rotating means 200, specifically, the rotating means 200 is formed with a casing 400 formed to be spaced apart from the dehydration case 100, and rotates the dehydration case 100 by magnetic force. . This rotating means 200 rotates the dehydration case 100 in order to discharge moisture from the rear surface of the dehydration plate 110 by centrifugal force. The rotating means 200 rotates the dehydration case 100 by a magnetic force between the outer ring 130 and the fixture 500 of the casing 400 to be described later, so that the fixture 500 surrounds the outer ring 130. Is formed. In addition, a first magnetic 220 is formed on the outer ring 130, and a second magnetic 230 is formed on the fixture 500 formed to be spaced apart from the outer ring 130. The first magnetic 220 and the second magnetic 230 are formed in plural and are formed at positions corresponding to each other. In addition, the first magnetic 220 and the second magnetic 230 are formed of the same electrode to rotate the dehydration case 100. In addition, as the first magnetic 220 and the second magnetic 230 are diagonally coupled, the dehydration case 100 rotates in one direction, and the second magnetic 230 formed in the casing 400 is an electrode by electromagnetic force. This can be changed. In detail, when rotating the dewatering case 100, the second magnetic 230 is changed to the same electrode as the first magnetic 220, and the dewatering case 100 is rotated by a pushing force, and the dewatering case ( When stopping 100), the electrodes of the second magnetic 230 and the first magnetic 220 are different, or the current is blocked in the second magnetic 230.

Accordingly, the rotating means 200 of the present invention has a characteristic of acting a centrifugal force by rotating the dewatering case 100 at the rear of the dewatering plate 110.

(Example 4-1) The present invention relates to a dehydration device, and in Example 3-1, the air intake pipe 310 and the air discharge pipe 320 are connected to both ends, and the dehydration case 100 inside A casing 400 for receiving; A flow path 141 formed on the surface of the blade 140 and communicating with the outer ring 130; A collecting groove 510 formed in the casing 400 and communicating with the flow path 141; It communicates with the collection groove 510 and an outlet 520 that communicates with the outside.

(Embodiment 4-2) In Embodiment 4-1, the dewatering apparatus of the present invention includes the flow path 141 formed in a groove or protrusion shape.

(Embodiment 4-3) In the dehydration apparatus of the present invention in Embodiment 4-1, the flow path 141 is formed in the air flow direction and includes a first flow path 141 formed in a plurality; And a second passage 141 communicating with the plurality of first passages 141 and communicating with the outer ring 130.

(Embodiment 4-4) In Embodiment 4-1, the dehydration apparatus of the present invention is formed in the outer ring 130, communicates with the second flow passage 141, and forms a space. 511); And a second collecting groove 512 communicating with the first collecting groove 511.

The present invention relates to the casing 400, specifically the casing 400 is a dehydration plate 110 and a dehydration case 100 are accommodated therein, and moisture is discharged to the outside according to the rotation of the blade 140 . The casing 400 has a circular cross section, and the air intake pipe 310 and the air discharge pipe 320 are coupled to both ends to penetrate air. At this time, air penetrates through the dehydration plate 110 formed inside the casing 400, but moisture and oil components are absorbed and removed. In addition, the casing 400 accommodates the dehydration case 100 therein, and the blade 140 rotates at the rear of the dehydration plate 110 to discharge moisture and oil components to the outside. At this time, the casing 400 is formed in a position coincident with the dehydration case 100, the fixture 500 is formed, the fixture 500 is formed with a larger diameter than the casing 400. The casing 400 and the fixture 500 are coupled to be detachably attached to each other, and are coupled by a fixing device and a force fitting. The blade 140 formed inside the casing 400 has a flow path 141 formed on the surface thereof, and the flow path 141 is formed by communicating with the outer ring 130. In addition, the flow path 141 is formed in a groove or protrusion shape, and when a centrifugal force is generated by the rotation of the blade 140, moisture is discharged to the fixture 500. In addition, the flow path 141 is formed in the air flow direction, communicates with the first flow path 141 and the plurality of first flow paths 141 formed in a plurality, and the second flow path 141 communicates with the outer ring 130 Is formed. The first passage 141 is formed in an oblique line on the surface of the blade 140 to induce moisture to move toward the outer ring 130, and the second passage 141 is formed at one end of the blade 140 to form a dehydration plate. Moisture absorbed in 110 is induced to move toward the outer ring 130 by centrifugal force along the first flow path 141. In addition, the moisture guided from the flow path 141 and discharged to the outer ring 130 is collected in the collecting groove 510, and the collected moisture is discharged to the outside through the outlet 520 formed in the fixture 500. The collection groove 510 is formed with a first collection groove 511 communicating with the second flow passage 141, and the first collection groove 511 is formed in a direction coincident with the second flow passage 141. The second collection groove 512 communicates with one end of the first collection groove 511 and is formed wider than the first collection groove 511 to transfer moisture collected to the first collection groove 511 by centrifugal force. . In addition, the second collecting groove 512 has an outlet 520 formed on one surface thereof, and the outlet 520 is formed through the fixture 500. The collecting groove 510 and the discharge port 520 are formed in at least one or a plurality of the fixing body 500, and a connection pipe is connected to the at least one discharge port 520 to store moisture in the storage body 600. . The storage body 600 stores moisture and foreign matter, and the moisture may be discharged by filtering the foreign matter.

Accordingly, the moisture absorbed by the dewatering plate 110 of the present invention is collected by the flow path 141 and discharged to the discharge port 520.

(Example 5-1) The present invention relates to a dehydration device, and in Example 1-1, in the dehydration system, a plurality of claim 1 dehydration devices are arranged in series, and are coupled to the air intake pipe 310, It includes; a pneumatic generator 700 for generating compressed air.

Embodiment 5-2) The dehydration apparatus of the present invention includes a; in Embodiment 5-1, the pneumatic generator 700 is formed by an air compressor or a blower.

(Embodiment 5-3) In the dehydration apparatus of the present invention in Embodiment 5-1, each of the dehydrating plates 110 coupled to the plurality of dehydrating cases 100 forms a different dehydrating agent content.

(Embodiment 5-4) In the dehydration apparatus of the present invention in Embodiment 5-1, the cone-shaped dewatering plates 110 coupled to the plurality of dewatering cases 100 form different inclination angles.

The present invention relates to a pneumatic generator 700, specifically, the pneumatic generator 700 is coupled to the air intake pipe 310 to generate compressed air. This pneumatic generator 700 is formed by an air compressor or a blower, and compressed air is supplied by an air casting suction pipe. At this time, the pneumatic generator 700 absorbs moisture by the dehydration plate 110 formed on the front surface of the dehydration case 100 as air containing moisture is supplied. The dehydration case 100 is formed in plural together with the dehydration plate 110, and the dehydration plate 110 forms different dehydrating agent content. In addition, the dehydration plate 110 is formed in a conical shape, and the plurality of dehydration plates 110 are preferably formed at different angles of inclination, respectively.

100: dehydration case 110: dehydration plate
120: inner ring 130: outer ring
140: blade 141: euro
200: rotating means 210: rotating shaft
220: first magnetic 230: second magnetic
240: drive motor
310: air intake pipe 320: air exhaust pipe
400: casing 500: fixture
510: collection groove 511: first collection groove
512: second collection groove 520: outlet
600: storage body 700: pneumatic generator

Claims (5)

Dehydration in which the dehydration plate 110 in the shape of a disk is seated in a disk shape and rotates
Case 100;,
A casing 400 accommodating the dehydration case 100;
An air intake pipe 310 coupled to one side of the casing 400 and into which air is introduced;
An air discharge pipe 320 which is coupled to the other side of the casing 400 and through which air is discharged;
The dehydration case 100 includes an inner ring 120 positioned at a center of rotation;,
Outer ring 130 formed on the outer periphery;,
It connects the inner ring 120 and the outer ring 130, is in contact with the dewatering plate 110, and
Blade 140 formed of a number of plates;
A rotating means 200 for rotating the dehydration case 100;
The air intake pipe 310 and the air discharge pipe 320 are connected to both end surfaces, and the casing 400 accommodates the dehydration case 100 therein;
A fixed body 500 detachably coupled to the casing 400 and formed at a position coincident with the dehydration case 100;
Oil formed on the surface of the blade 140 and communicated with the outer ring 130
Furnace 141;
A collecting groove 510 formed in the fixture 500 and communicating with the flow path 141;
Dewatering device comprising; an outlet 520 communicating with the collecting groove 510 and communicating with the outside.
delete delete delete In the dehydration system,
Dehydration system comprising a; a plurality of dehydration devices of claim 1 are arranged in series, coupled to the air intake pipe (310), a pneumatic generator (700) for generating compressed air.

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