KR200483951Y1

KR200483951Y1 - Cyclone dryer for sludge drying

Info

Publication number: KR200483951Y1
Application number: KR2020150007436U
Authority: KR
Inventors: 조은만
Original assignee: (주)리엔텍엔지니어링
Priority date: 2015-11-17
Filing date: 2015-11-17
Publication date: 2017-07-11
Also published as: KR20170001818U; AU2016253682A1

Abstract

The present invention relates to a cyclone drier for drying sludge, and more particularly, to a cyclone drier for drying sludge, in which a rotating scraper is installed on the inside of a body to prevent a drying target substance from adhering to the inner surface of the body, And more particularly, to a cyclone dryer for sludge drying which is capable of maximizing the stability of the drying performance and the drying efficiency.
According to the present invention, there is provided a body comprising: a cylindrical upper body having a constant inner diameter; and a cylindrical lower body extending from a lower end of the upper body and having an inner diameter reduced toward the lower side; A cover coupled to an upper portion of the body and having a through hole at a center thereof; An inlet pipe installed at an upper side of the body; A discharge pipe inserted at a predetermined depth into the inside of the body through the through hole of the cover; A scraper installed vertically and vertically rotatably in the body and spaced apart from the inner surface of the body by a predetermined distance; And a driving unit provided on the body for driving the scraper to rotate the sludge dryer.

Description

{Cyclone dryer for sludge drying}

The present invention relates to a cyclone drier for drying sludge, and more particularly, to a cyclone drier for drying sludge, in which a rotating scraper is installed on the inside of a body to prevent a drying target substance from adhering to the inner surface of the body, And more particularly, to a cyclone dryer for sludge drying which is capable of maximizing the stability of the drying performance and the drying efficiency.

Generally, the cyclone drier applied to the cyclone drying apparatus separates the free water, the surface adhesion water and the pore water part mechanically and physically from the water contained in the drying target material through the centrifugal force generated by the free flow rate of the air, It is a structure that exerts an effect.

In the cyclone dryer, when a high-viscosity chemical component such as a polymer coagulant chemically bonded with solid particles is included in the property of the object to be dried, a fouling phenomenon occurs in which the object to be dried is adhered to the inner surface of the body due to strong viscosity during drying ) Phenomenon occurs frequently.

As described above, due to the agglomeration phenomenon occurring in the cyclone dryer, the continuous performance of the cyclone drying apparatus is deteriorated and defects such as malfunctions are caused, thereby lowering drying performance and drying efficiency.

Registered in Korean Registered Utility Model No. 20-0437373, November 21, 2007.

The object of the present invention is to solve the above-mentioned problems, and it is an object of the present invention to provide a method of drying a drying target material by using a centrifugal force generated by a flow velocity of air, And it is an object of the present invention to provide a cyclone dryer for sludge drying which can prevent the occurrence of clogging due to development and maximize the drying performance and the drying efficiency.

The object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood from the following description.

According to an aspect of the present invention, there is provided a sludge drying cyclone drier comprising: a cylindrical upper body having a constant inner diameter; a body formed of a cylindrical lower body extending from a lower end of the upper body and having an inner diameter reduced toward the lower side; A cover coupled to an upper portion of the body and having a through hole at a center thereof; An inlet pipe installed at an upper side of the body; A discharge pipe inserted at a predetermined depth into the inside of the body through the through hole of the cover; A scraper installed vertically and vertically rotatably in the body and spaced apart from the inner surface of the body by a predetermined distance; And driving means provided on the body for rotationally driving the scraper.

The driving means includes a driving motor installed at one side of the cover; A reducer installed at one side of the cover and connected to a drive shaft of the drive motor and having an output shaft positioned inside the cover; A pinion axially installed on an output shaft of the speed reducer; And a ring gear rotatably installed in the body and having an inner gear engaged with the pinion along an inner surface thereof and an upper end of the scraper connected to the outer surface of the inner gear.

And an outer diameter enlarging space is formed at an inner upper edge of the body so as to enlarge the outer diameter of the body, and a support bearing rotatably supporting the ring gear is installed in the outer diameter enlarging space in a state where the support bearing is fixed to the cover.

And a supporter that exerts a supporting force from the lower outer surface of the discharge pipe is installed horizontally below the scraper.

A boss is rotatably installed on a lower outer surface of the discharge pipe with a bushing therebetween, and an end of the support is connected to an outer side of the boss.

The scraper may include a plurality of scrapers, and may be installed at a predetermined interval in the body.

In the present invention with the above construction, a scraper that rotates along the inner surface of the body is provided inside the body, thereby effectively preventing the drying object from being visibly adhered to the inner surface of the body, thereby maximizing the stability of the drying performance and the drying efficiency There is an effect that can be done.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a general view showing a cyclone drying apparatus to which a cyclone dryer for drying sludge according to a preferred embodiment of the present invention is applied. FIG.
2 is a cross-sectional view of a cyclone dryer for sludge drying according to a preferred embodiment of the present invention;

This design is the most important device connected between the drying object injector and the cyclone separator in the cyclone drying facility for sludge drying. It separates and removes a part of water contained in the drying target material through the centrifugal force generated by the air flow velocity To a cyclone dryer for sludge drying.

Particularly, the cyclone dryer for sludge drying according to the present invention is characterized in that the drying object is prevented from adhering to the inner surface of the body due to viscosity when the water is separated and removed by centrifugal force, to be.

Such a structure has a structure in which a scraper that scatters an instantaneously adhered dried object while blocking the drying object from sticking to the inner surface of the sea while rotating along the inner surface of the body as the driving means is driven inside the body Lt; / RTI >

Hereinafter, a cyclone dryer for sludge drying according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1, a cyclone dryer 100 for sludge drying according to a preferred embodiment of the present invention is connected between a cyclone separator 300 and a drying object injector 200 of a cyclone dryer 1000 for sludge drying, And a part of moisture contained in the object to be dried is separated and removed through a rapid swirling flow of air.

2, the sludge drying cyclone dryer 100 according to a preferred embodiment of the present invention includes a body 110, a cover 120, an inlet pipe 130, a discharge pipe 140, a scraper 150 And a driving means 160. [0031]

First, the body 110 is disposed between the drying object injector 200 and the cyclone separator 300, and provides a space for air to be pumped into the drying object and the object to be dried.

That is, the body 110 provides a flow space such that a part of water contained in the object to be dried is separated and removed by the centrifugal force by the flow of air.

The body 110 is composed of an upper body 111 and a lower body 112. At this time, the upper body 111 is formed in a cylindrical shape having an open top and a constant inner diameter at the top and bottom. The lower body 112 is integrally formed at the lower end of the upper body 111, and the lower body is closed, and the inner body is gradually reduced toward the lower side.

Next, the cover 120 is installed on the upper part of the body 110 to close the upper part of the body 110 and attach the inflow pipe 130 and the driving unit 160 to be described later.

The cover 120 is formed in a shape corresponding to the upper portion of the upper body 111 of the body 110 and is coupled to the upper portion of the upper body 111 and has an inlet pipe 130 1 through holes 121 are formed.

The inlet pipe 130 is installed on one side of the upper part of the body 110 to allow air to be pumped and dried by the drying object injector 200 to flow into the interior of the body 110.

For this purpose, the inlet pipe 130 is installed on one side of the upper body 111 of the body 110. It is preferable that the inflow pipe 130 is installed in a tangential direction on the outer peripheral surface of one side of the upper body 111 so that the air and the drying object flow into the inside of the body 110 and smoothly circulate.

Next, the discharge pipe 140 is inserted into the center of the upper part of the body 110 to discharge a part of moisture, which has been removed from the inside of the body 110, together with air to the outside.

For this purpose, the discharge tube 140 is inserted into the first through hole 121 of the cover 120. That is, the discharge pipe 140 is exposed to the outside of the body 110 such that the drying object is discharged to the outside together with the air by the pressure drop caused by the flow velocity of air circulating in the body 110, 110, respectively.

At this time, a lower portion of the discharge pipe 140 is formed with an enlarged portion whose inner diameter gradually increases toward the lower end so as to be smoothly discharged to the outside together with air.

Next, the scraper 150 is a core component of the present invention, which is provided inside the body 110 to prevent fouling, in which the object to be dried is adhered to the inner surface of the body 110 due to viscosity .

That is, when the drying object pivots along the inner surface of the body 110 due to the flow velocity of the air, the scraper 150 rotates in accordance with the operation of the driving unit 160, which will be described later, The drying object to be instantly adhered to the inner surface of the body 110 is removed.

For this purpose, the scraper 150 is installed inside the body 110 so as to be rotatable by a driving means 160 to be described later, and is disposed so as to be spaced apart from the inner surface of the body 110 by a predetermined distance do.

That is, the scraper 150 is installed vertically vertically inside the body 110, and is connected to the driving means 160, which will be described later, with the upper portion thereof being spaced apart from the inner surface of the upper body 111 of the body 110 by a predetermined distance, Are spaced apart from each other by a predetermined distance on the inner surface of the lower body (112) of the body (110).

The upper and lower boundaries of the scraper 150 are bent at a predetermined angle so as to face the inner center of the body 110 in correspondence with the boundary between the upper body 111 and the lower body 112 of the body 110 .

The scraper 150 has a mechanical strength and a small diameter and a circular cross section so that the drying object adhering to the inner surface of the body 110 can be effectively removed without interfering with the swirling flow of the air and the drying object as much as possible. Or an annular tube.

It is preferable that a plurality of scraper 150 are installed inside the body 110 at a predetermined interval so as to effectively prevent the adhesion of the object to be dried and the desorption of the object to be dried. The pair of scrapers 150 may be symmetrically arranged at one side and the other side of the body 110 at intervals of 180 degrees.

Lastly, the driving means 160 is installed on the body 110 and the cover 120, and rotates the scraper 150 when the air and the object to be dried swirl in the body 110.

The drive means 160 includes a drive motor 161, a speed reducer 162, a pinion 163, and a ring gear 164.

In this case, the drive motor 161 is installed on one side of the cover 120 to provide rotational power. The speed reducer 162 is installed on one side of the cover 120 to be connected to the drive shaft of the drive motor 161, The output shaft to be connected is inserted into the cover 120 through the second through hole 122 formed in the cover 120 so that the rotational speed of the driving motor 161 is decelerated to a low speed. However, the drive motor 161 and the speed reducer 162 may be replaced with a geared motor in which the speed reducer is integrally provided.

The pinion 163 is integrally rotatably mounted on the output shaft of the speed reducer 162. The ring gear 164 is rotatably installed inside the body 110 and has an internal gear engaged with the pinion along the inner surface thereof And the upper portion of the scraper 150 is connected to the outside.

That is, when the output shaft of the speed reducer 162 rotates at a low speed in accordance with driving of the driving motor 161, the driving means 160 rotates the ring gear 164 engaged with the pinion 163 and is connected to the ring gear 164 Thereby rotating the scraper 150 along the inner surface of the body 110.

The driving means 160 is installed inside the body 110 on the lower surface of the cover 120 from the outside of the ring gear 164 to support the ring gear 164, And a support bearing 165 for facilitating rotational motion.

It is preferable that the outer diameter enlarging space 113 for installing the support bearing 165 is provided at the inner upper edge of the body 110 so that the support bearing 165 is installed outside the ring gear 164.

As shown in FIG. 2, the cyclone dryer 100 for sludge drying according to a preferred embodiment of the present invention has a structure in which when the scraper 150 rotates, the rotation resistance of the drying object or the like adhering to the inner surface of the body 110 And further includes a support table 170 for preventing warpage or breakage.

To this end, the support table 170 is horizontally installed on the lower side of the scraper 150 so as to be in close contact with the outer surface of the discharge pipe 140 inserted into the body 110. However, the support table 170 is connected to the connection member 171 provided on the lower side of the scraper 150, and is rigidly fixed.

The support member 170 is rotatably installed on the outer surface of the discharge pipe 140 with the bushing 181 interposed therebetween in order to reduce the rotational friction with the outer surface of the discharge pipe 140 when rotating together with the scraper 150 It is preferable to be connected to the boss 180.

As described above, the cyclone drier for drying sludge according to the present invention is provided with a scraper that rotates inside the body to physically prevent the closed end where the drying object is adhered to the inner surface of the body, thereby maximizing the stability of the drying performance and the drying efficiency .

The above-described embodiments are merely illustrative, and various modifications may be made by those skilled in the art without departing from the scope of the present invention.

Therefore, the true technical protection scope of the present invention should include not only the above-described embodiments but also various other modified embodiments according to the technical ideas described in the following claims.

1000: Cyclone drying plant
100: cyclone drier
200: Drying object injector
300: Cyclone separator
110: Body
111: upper body
112:
113: Enlarged outer diameter space
120: cover
121: first through hole
122: second through hole
130: inlet pipe
140: discharge pipe
150: Scraper
160: Driving means
161: drive motor
162: Reducer
163: Pinion
164: ring gear
165: Support bearing
170: Support
171:
180: Boss
181: Bushing

Claims

A body made of a cylindrical upper body having a constant inner diameter and a cylindrical lower body extending at a lower end of the upper body and having an inner diameter reduced toward the lower side; A cover coupled to an upper portion of the body and having a through hole at a center thereof; An inlet pipe installed at an upper side of the body; A sludge drying cyclone drier for separating and removing moisture contained in a drying object by using a centrifugal force generated by a flow velocity of the air, In this case,
The body is rotatably installed vertically and vertically. The body is spaced apart from the inner surface of the body by a predetermined distance. The body is disposed at a predetermined interval in the body, and the upper portion is spaced apart from the inner surface of the upper body by a predetermined distance A scraper whose lower portion is spaced apart from the inner surface of the lower body by a predetermined distance and whose upper and lower boundaries are bent at a predetermined angle so as to face the inner center of the body in correspondence with the boundary between the upper body and the lower body; And
And driving means provided on the body and connected to an upper portion of the scraper to rotationally drive the scraper,
The scraper is composed of a round bar or a circular pipe having a circular cross section so as to minimize the obstruction of circulation of air and the object to be dried,
Wherein the drive means includes a drive motor installed at one side of the cover, a speed reducer installed at one side of the cover and connected to a drive shaft of the drive motor and having an output shaft positioned inside the cover, a pinion shrouded in an output shaft of the speed reducer, And a ring gear connected to the upper end of the scraper outside the lower surface of the inner gear. The output shaft of the speed reducer is driven at a low speed The ring gear engaged with the pinion rotates and rotates the scrapers connected to the ring gear along the inner surface of the body,
Characterized in that an outer diameter enlarging space for enlarging the outer diameter is formed at the inner upper end edge of the body and a support bearing for rotatably supporting the ring gear is fixed to the cover in the outer diameter enlarging space. Cyclone dryers.

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The method of claim 1, wherein
On the lower side of the scraper
Wherein a support stand is horizontally installed to exert a supporting force from a lower outer surface of the discharge pipe.

5. The method of claim 4,
On the lower outer surface of the discharge pipe
The boss is rotatably mounted between the bushings
On the outside of the boss
And an end of the support is connected to the sludge dryer.

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