KR101524856B1 - Drying apparatus - Google Patents

Abstract

The present invention relates to a drying apparatus for sealing the inside of a drying apparatus from the outside.
A drying apparatus for drying a material to be dried with a heating gas, comprising: a drying chamber having a shaft hole at an upper portion; a plurality of conveying surfaces provided in the drying chamber and having the shaft hole and the opening; a plurality of drive shafts passing through the shaft hole; A rake which is provided around a plurality of drive shafts and rotates so as to carry the object to be dried from the one end side to the other end side of the transportation surface and drop the object from the opening to the transportation surface at the lower end; The driving unit suspends the driving shaft and inserts the fixing shaft at a lower end of the driving shaft to axially support the driving shaft. The driving shaft includes a driving shaft rotatably mounted on a lower surface of the drying chamber, do.

Description

[0001] DRYING APPARATUS [0002]

The present invention relates to a drying apparatus for drying an object such as organic waste.

Background Art Conventionally, organic wastes such as food waste and fermentation sludge contain a large amount of water and have been incinerated from the viewpoint of reducing waste and rendering them harmless.

On the other hand, an object to be dried is arranged on a multi-stage shelf, organic wastes on the shelf are moved by a rotating rake rotated by a driving shaft, and heated gas is flowed in contact with heating gas as a heating medium such as superheated steam There has been proposed a dryer that is contacted and dried.

In such a drying apparatus, a shelf made of a plurality of stages is provided in a drying chamber, and a plurality of rakes for conveying the dried material from one end side to the other end side of the shelf while stirring is provided on the shelf. The rake is provided with a shaft through hole at its central portion. A drive shaft provided above and below the drying chamber is inserted in the shaft through hole, and the rake is rotated by these drive shafts. Here, the drive shaft is inserted into a port as a bottomed cylindrical cylindrical shaft insertion member having an opening formed at an upper end thereof and open at a lower end dry surface of the drive shaft driving means, and is rotatably supported in such a port. A heat medium flow path is formed on each shelf. In the heating medium circulation path, heating steam of the heating medium for drying the laundry is passed. The drying device transports the object to be dried, which is carried on the drying surface at the upper end, while stirring with a rake rotating through a driving shaft, and sequentially discharges the object to the drying surface of the lower end while drying with a heating medium.

In the drying apparatus shown in Patent Document 1 below, the port and the outside are provided for sealing the drying chamber, and an oil component is added to the seal liquid to prevent the moisture in the seal liquid from evaporating in the drying chamber.

Japanese Patent Application Laid-Open No. 2005-351503

However, if a liquid seal port is provided at the bottom, there is a problem that the drying object in the drying chamber accumulates in the port and the driving shaft moves in the upward direction, and stable operation is impossible.

The form for solving the above-mentioned problems is as shown in the following items.

1. A drying apparatus for drying an object to be dried with a heating gas,

A drying chamber having a shaft hole at an upper portion thereof,

A plurality of conveying surfaces provided in the drying chamber and having the shaft hole and the opening,

A plurality of drive shafts passing through the shaft hole,

A rake provided around the plurality of drive shafts and rotating to transport the object to be dried from the one end side to the other end side of the transportation surface and to drop the object from the opening to the transportation surface at the lower end,

A driving unit for rotating the driving shaft at an upper portion of the drying chamber,

And a fixing shaft provided on a lowermost transport surface of the drying chamber,

Wherein the drive unit suspends the drive shaft,

And the driving shaft is pivotally supported by inserting the fixed shaft at the lower end of the driving shaft.

Since the weight of the drive shaft does not directly touch the bottom plate, a bearing portion for supporting the drive shaft on the ground through the bottom plate is unnecessary, and the vertical movement of the drive shaft is eliminated by eliminating the accumulation of the dry- .

2. The apparatus according to claim 1, further comprising a seal liquid storage portion disposed in the shaft hole in the upper portion of the drying chamber and surrounding the drive shaft to store the seal liquid,

Wherein the drive shaft includes a tubular member that surrounds the drive shaft and has an opening at the lower end and seals the upper end thereof in the shaft hole of the drying chamber,

And the lower end of the tubular member is immersed in the seal liquid in the seal liquid storage portion to seal the gas in the drying chamber into the drying chamber.

There is no need to use a labyrinth seal, and the inside of the drying apparatus can be sealed from the outside.

3. The seal liquid reservoir is configured such that the lower end of the tubular member does not fall off from the seal liquid and the lower end of the tubular member does not contact the inner wall of the seal liquid reservoir even if the drive shaft moves in the horizontal direction The drying apparatus according to claim 1 or 2,

4. The drying apparatus according to claim 1 or 2, wherein the seal liquid reservoir further comprises a seal liquid tank provided for each of the drive shafts and supplying a seal liquid to maintain the liquid level of the seal liquid reservoir.

5. The drying apparatus according to claim 1 or 2, wherein the seal liquid is water or a mixture of oil, water and oil.

6. A deodorizing device for deodorizing or harmlessly burning a part of a heating gas, a cooling water stage for cooling the drying object, a rotating shaft for rotating the driving shaft, The drying device according to claim 1 or 2.

According to the present invention, the drive shaft is suspended from the drive unit, and the weight of the drive shaft does not directly touch the bottom plate. Therefore, a bearing portion for supporting the drive shaft on the ground surface through the bottom plate is unnecessary, By eliminating the accumulation points, vertical movement of the drive shaft can be prevented.

1 is a view showing a first embodiment of a drying apparatus according to the present embodiment.
2 is a view showing a second embodiment of the drying apparatus according to the present embodiment.
3 is a view showing an example of the structure of a rake.
4 is a horizontal sectional view showing an example of a drying apparatus.
5 is a vertical sectional view showing an example of a drying apparatus.
6 is a view showing an example of the lower seal structure.
7 is a view showing an example of a flow path of a heating gas in a conventional drying chamber.
8 is a view showing an example of the flow path of the heating gas in the drying chamber according to the present embodiment.
9 is a view showing an example of a heating section.
10 is a view showing a third embodiment of the drying apparatus according to the present embodiment.
11 is a view showing an example of a drying method of the drying apparatus according to the present embodiment.

Hereinafter, with reference to the drawings, an outline of the construction of [1] a drying apparatus, [2] an upper seal mechanism, [3] a lower seal mechanism, and [4] do.

[1] Overview of drying equipment

The outline of the drying apparatus will be described below.

1 is a view showing a first embodiment of a drying apparatus according to the present embodiment. The drying apparatus 1 shown in Fig. 1 is dried by bringing the object to be dried, which is an organic waste supplied from the outside, into contact with the heated gas in counterflow or parallel flow. Organic wastes include sewage sludge, kitchen waste from general households, food waste, waste from food factories, livestock wastes, and methane fermentation apparatus and residue from fermentation concentrators. The heating gas is, for example, steam.

The drying apparatus (1) includes a drying unit (3) for drying the object to be dried and a heating unit (5) for heating the heating gas. The drying unit 3 includes a drying chamber 20 for containing and drying the object to be dried and a driving unit 80 disposed at an upper portion of the drying chamber 20. The heating unit 5 includes a heating device 30 for heating a heating gas circulated in the drying chamber 20, a cyclone 50 for removing dust contained in the gas, And a cooling unit 70 for cooling the object to be processed discharged from the drying chamber 20 and the cyclone 50. [

The drying chamber 20 is formed of castable refractory or heat insulating material on the inner wall or outer wall, and the transportation surface 21 for storing the waste therein is arranged in multiple stages along the longitudinal direction. The transport surface 21 is at least three at the top, middle, and bottom. In addition, the edge of each transport surface 21 is surrounded by the side wall of the drying chamber 20. A drop opening 23 is formed on the carry-out side of each transport surface 21 to drop the object to be transported to the carrying surface 21 at the lower end. Each conveying surface 21 is provided with a rake 22 for moving the organic waste in the horizontal direction. Since the object to be dried is dried by passing over the plurality of conveying surfaces 21, for example, the object can be dried up to a desired water content by evaporating the moisture of the object to be dried by direct contact with the object to be dried. The details of the rake will be described later with reference to FIG.

The drying chamber 20 and the heating device 30 are connected to an outlet pipe 101a and an inlet pipe 101b, and these pipes serve as a circulation path of the heating gas. An outlet pipe 101a of the heating gas is connected to the upper end of the drying chamber 20 and an object 120a for drying the object to be dried is formed. The object to be dried is supplied from the object to be dried 120a to the uppermost transportation surface.

On the other hand, the inlet pipe 101b of the heated heating gas is connected to the gas supply port 120c at the middle end of the drying chamber 20. [ The outlet pipes 120 and 101a for steam containing the evaporated moisture are connected to the gas discharge port 120e and the gas discharge port 120d at the lower end of the drying chamber 20, respectively. The drying apparatus according to the present embodiment is different from the one-through type in which the inlet pipe 101b is disposed at the middle end of the drying chamber 20 and the gas is supplied from the upper portion and drawn out from the bottom portion, Can be increased. These effects will be described later with reference to Figs. 7 and 8. Fig.

The heating device 30 heats the heating gas discharged from the drying chamber 20 by heat exchange with the heating medium supplied from the pipe 41. The heating medium is, for example, steam having a temperature higher than that of the heating gas, high-temperature exhaust gas of another plant, and the like, provided that heat exchange is possible.

The outlet pipe 102 is connected to the cyclone 50, and removes dust in the vapor by the cyclone 50. A part of the steam is supplied to the deodorizing device 60 from the middle of the inlet pipe 101b or 101a.

The cyclone 50 is a dust collecting device for collecting the objects to be dried accompanied with the heating gas. A circulation fan (not shown) is installed in the pipe 101a or 102 to circulate the steam in a predetermined direction. The cyclone 50 is provided with a discharge gate 21b which can be opened and closed, and the discharge gate 21b has a seal mechanism, and the cooling section 70 is connected and connected.

Since the evaporated water generated from the object to be dried increases the amount of the heated gas accompanying the heated gas, it is necessary to release a part of the heated gas to the outside of the system. However, since the heated gas accompanies bad odors, it is necessary to deodorize the gas to release it to the outside of the system. The deodorizing device (60) burns and deodorizes a part of the heated gas to prevent the accumulation of moisture in the heated gas and prevents the release of the gas accompanied by the offensive odor.

The dried object to be treated is supplied from the object to be processed outlet 120b to the cooling section. The discharge port 120b is provided with a discharge gate 21a which can be opened and closed, the discharge gate 21a has a seal mechanism, and the cooling section 70 is connected and connected. Here, the seal mechanism is a mechanism for preventing external air from entering from the discharge port 120b and preventing the drying of the object to be dried in the drying chamber 20 and ignition, for example, a double bumper or a slide gate.

The cooling section 70 cools the dried material. The drying object dried in the cooling section (70) is cooled by indirect water cooling or the like. Thereby preventing spontaneous ignition of the object to be dried by cooling the object to be dried at a high temperature. The cooling section 70 is constituted by, for example, inserting a conveying pipe for conveying the object to be dried into a cooling pipe and introducing and discharging the cooling water into the cooling pipe in a predetermined direction.

The driving unit 80 is disposed at an upper portion of the drying chamber 20 and rotates the rake 22 through the driving shaft 25. Details of the driving unit will be described later with reference to FIG.

The dry matter discharged from the drying apparatus 1 by the cooling section 70 can be used as fuel for a thermal power plant or a cement factory. Further, the drying apparatus 1 can remove water in the drying object by 10% by weight or less, and can be transported by air to an adjacent power plant or factory.

2 is a view showing a second embodiment of the drying apparatus according to the present embodiment. The drying apparatus 1A shown in Fig. 2 has the same structure as the drying apparatus 1 shown in Fig. 1, but differs in that the heating gas for drying the dried object is not steam. This heating gas is, for example, an exhaust gas of a plant adjacent to the drying apparatus 1A, and is a high temperature exhaust gas which is not sufficiently high in temperature for heat exchange with the heating gas of the drying apparatus 1. [ The drying apparatus 1A has a multi-stage structure. Since the contact time between the object to be dried and the heated gas is long, the object to be dried can be dried with desired moisture even if there is no temperature difference.

3 is a view showing an example of a rake structure. The rake 22 shown in Fig. 3 has a cylindrical central shaft portion 32 having a shaft through hole 31 through which the drive shaft 25 is inserted and which is open at the central portion, And an arm portion 33 is provided. The arm portion 33 is curved in an arc shape along the circumferential direction of the central shaft portion 32. [ The arm portions 33 are protruded in opposite directions with respect to the central axis of the central shaft portion 32. [ The mutually adjoining rake (22) is formed such that the curvature of the central axis portion (32) is reversed.

The intervals between the drive shafts 25 are determined such that a part of the radius of the arm portions 33 of the respective rakes 22 does not overlap the locus of the arm portions 33 of the mutually adjacent rake 22, The rake 22 is positioned so as not to interfere with the adjacent drive shaft 25. As the rake 22 rotates in this way, the laundry is conveyed toward the opening 23.

4 is a horizontal sectional view showing an example of a drying apparatus. The driving unit 80 has a motor 82 and a gear (not shown). The driving unit 80 transmits the rotational power generated by the motor 82 to the driving shaft 25 through the gear in the driving unit and rotates the driving shaft 25. The gears interlock with each other. Therefore, the drive shaft 25 and the rake 22 are rotated in an interlocking manner in mutually opposite directions while being mutually adjacent to each other.

In the drying chamber 20, an object to be dried 120a is formed at the uppermost stage and an object to be processed 120b is formed at the lowermost stage. The drying object inlet 120a is provided with a hopper 124 and a feeding device 126 having a screw conveyor 125 and the like.

[2] Upper seal mechanism

5 is a vertical plan view showing an example of a drying apparatus. Although one drive shaft is shown as an example in Fig. 5, the same structure is applied to other drive shafts. A heat resistant metal plate 12 having an upper surface as a transportation surface 21 is arranged in a plurality of stages in the vertical direction along the horizontal direction in the drying chamber 20. These heat resistant metal plates 12 are spaced apart from each other at substantially equal intervals in the vertical direction . One end side of the upper and lower transport surfaces 21 on the opposite side is the carry-in side of the article to be dried, and the other side opposite to the other side of the upper and lower transport surfaces 21 is the carry-out side of the article to be dried. That is, the bottom side of the transportation surface 21 on the upper side is disposed on the lower side of the transportation surface 21 on the carrying-out side.

The drying object inlet 2 communicates with the uppermost transportation surface 21 and the drying object discharge port 11 communicates with the transportation surface 21 at the lowermost stage. That is, the uppermost conveying surface 21 is a loading stage of the object to be dried, and the lowermost conveying surface 21 is a discharging stage (discharging stage) of the object to be dried.

A plurality of shaft insertion through holes 24 are formed in the heat resistant metal plate 12 constituting each transportation surface 21 in the drying chamber 20. A drive shaft 25 as a rotation shaft is inserted . As shown in FIG. 5, each of the drive shafts 25 is suspended at an upper portion of the drying chamber 20 and fixed to the hanging member 26 by a pin 26a. Each of the drive shafts 25 is provided with a plurality of rakes 22 arranged in close contact with the respective transportation surfaces 21.

As shown in FIG. 5, a seal mechanism 200 is provided at an upper portion of the drying chamber 20 to seal the gas and the outside of the drying chamber 20. The seal mechanism is installed between the upper portion of the drying chamber 20 and the driving portion 80. The seal mechanism 200 includes a seal liquid storage portion 210 for filling the seal liquid, a cylindrical seal cylindrical member 220 provided on the drive shaft 25 while the end of the drive portion is closed, and a sealing cylindrical member 220 Is sealed in the seal liquid storage part 210 by immersion. The seal mechanism 200 is provided with a seal liquid tank 230 having a liquid level equal to that of the seal liquid storage portion 210 so as to communicate between the seal liquid storage portion 210 and the seal liquid tank 230 via the communication pipe 240 . By filling the seal liquid in the seal liquid tank 230, the liquid level of the seal liquid storage portion 210 is automatically maintained constant.

In the present embodiment, the seal liquid may be a liquid such as oil or water. Since the seal liquid contacts the seal liquid reservoir and the drive shaft affected by the heat from the inside of the tank, the liquid temperature rises. Therefore, measures must be taken to prevent evaporation of the seal liquid when the liquid temperature rises. Therefore, when water is used as the seal liquid, an oil film is formed on the water surface to prevent water evaporation, and water and oil may be used in combination.

The liquid level of the seal liquid storage part 210 varies depending on the pressure inside the drying chamber 20, scattering of the seal liquid, and the like. When the seal liquid is filled, the seal liquid can be supplied to the seal liquid tank 230 and the seal liquid can be simultaneously supplied to the plurality of seal ports through the connection pipe. The maintenance of the liquid level maintains the liquid level of the seal liquid tank 230 so that the liquid level can be constantly adjusted with respect to a plurality of seal ports. Therefore, when the seal mechanism 200 is employed, it is easy to perform maintenance such as filling operation of the seal liquid, measurement of the level of the seal liquid, and spreading operation.

[3] Lower seal mechanism

Fig. 6 is a view showing an example of the lower seal mechanism, Fig. 6 (a) is an exploded view of the lower seal mechanism, and Fig. 6 (b) is a view after assembling the lower seal. The lower seal mechanism 300 has a conical spoon-receiver sheet 320 attached to the lower part of a rake 22 provided at the lowermost shelf plate and a fixed shaft 310 for supporting the drive shaft 25.

The shaft having the bottom other than the drying chamber is not provided as the bearing structure under the drying chamber and the fixing shaft 310 is provided on the heat resistant metal plate 12 at the lowermost stage and the conical spoon- 320, and a rake 22 is installed. 5, each driving shaft 25 is suspended by being fixed by a pin 26a to a hanging member 26 whose upper end is disposed at the upper portion of the drying chamber 20. As shown in Fig. Therefore, since the weight of the drive shaft and the rake is not transmitted directly to the heat resistant metal plate 12, there is no need for a bearing portion that penetrates the heat resistant metal plate 12 to support the drive shaft at the ground surface, It is possible to prevent the vertical movement of the display device.

[4] Heating apparatus for heating the drying apparatus

7 is a view showing an example of the flow path of the heating gas in the conventional drying chamber. In Fig. 7, the dotted line indicates steam. In Fig. 7, the inlet of the heating gas is disposed on the upper side of the drying chamber, and the outlet of the heating gas is disposed on the other side of the lower portion of the drying chamber. Therefore, the direction in which the heating gas and the object to be dried coincide with each other as indicated by an arrow in the figure, and the heating gas flows and contacts the object to be dried.

8 is a view showing an example of the flow path of the heating gas in the drying chamber according to the present embodiment. The drying apparatus shown in Fig. 8 has a flow path from the middle end of the drying chamber 20 to the upper end and two flow paths to the lower end. As compared with the conventional method of supplying the heating gas from the upper part of the drying chamber and discharging the heating gas from the lower part, it is branched into the two flow paths upstream and downstream, so that the heating gas flow rate can be increased and the temperature of the heating gas can be relatively lowered. Further, since the flow rate of the heating gas can be increased, the drying efficiency is improved by improving the contact efficiency between the object to be dried and the heating gas. Further, since the heated gas enters from the middle end and the low-temperature gas flows out from the upper and lower ends, it is unnecessary to take measures against heat against the high-temperature heating gas in the driving portion 80, Evaporation of the water for sealing can be prevented.

9 (a) and 9 (b) are views showing an example of a heating section. In the heating unit 5a shown in Fig. 9 (a), for example, the heating device 30 uses waste heat such as cement plant exhaust gas, and the heating device 32 uses deodorized exhaust gas as a heat source. In Fig. 9 (b), the combustion exhaust gas of the combustion furnace 60b is used as the heat source, but the fuel consumption in the heat source furnace can be reduced by partially using the low temperature waste heat from the factory already installed in the heating device 32 have. 9A and 9B, since the flow rate of the heating gas can be increased, the laundry can be dried at a small temperature difference using another heat source.

10 is a view showing a third embodiment of the drying apparatus according to the present embodiment. The drying apparatus 1B shown in Fig. 10 has circulating fans 27 and 28 for circulating the heating gas in a predetermined direction, and has a deodorizing device 60a which is a furnace. And differs in that the combustion furnace is used as a deodorizing device 60a, heat is recovered in the heating device 90, and the circulating gas is heated. By using the amount of heat for burning and burning the circulating gas, the amount of heat required by the heating device 30a can be reduced.

Further, the drying apparatus 1B has a cooling device 150. Fig. The cooling device 150 can generate a steam atmosphere by spraying water when the evaporated water generated from the object to be dried is reduced, and can prevent the object to be dried and ignited.

11 is a view showing an example of a drying method of the drying apparatus according to the present embodiment. First, the drying processing (S101 to S105) of the object to be dried will be described. The drying apparatus 1 supplies the object to be dried from the object to be dried 120a to the uppermost transportation surface (S101). The object to be dried is dried by the heating gas on the conveying surface (S102). The dried material is transported by the rake over the transportation surface, and dropped from the opening to the transportation surface at the lower end by the rake at the end of the transportation surface (S103). The object to be dried that has dropped to the lowermost end is discharged from the processing water outlet 120b as the object to be processed, cooled in the cooling section (S104), and discharged from the drying apparatus after cooling (S105).

Next, the heating process (S201 to S205) of the heating gas will be described. In the drying apparatus 1, the heated gas heated by the heating unit is supplied from the gas supply port 120c at the middle end of the drying chamber (S201). The low-temperature heating gas coming into contact with the object to be dried is discharged from the upper gas outlet 120d and the lower gas outlet 120e (S202). The discharged heated gas is heated in the heating device 30 (S203). A part of the heating gas discharged from the drying chamber 20 is burned to be deodorized or detoxified (S204). When the evaporated water in the drying chamber 20 is reduced, water is supplied to the heated gas to prevent the drying of the dried object and ignition (S205).

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. It will be apparent that various modifications of the above-described embodiments can be made without departing from the spirit and scope of the invention.

1 ... dryer
3 ... dryer
5 ... heating section
20 ... drying room
30, 30a ... Heating device
50 ... cyclone
60 ... deodorizing device
70 ... cooling section
80 ... Drive
200 ... Seal mechanism
300 ... Lower seal mechanism

Claims (6)

A drying apparatus for drying a material to be dried with a heating gas,
A drying chamber having a shaft hole at an upper portion thereof,
A plurality of conveying surfaces provided in the drying chamber and having the shaft hole and the opening,
A plurality of drive shafts passing through the shaft hole,
A rake provided around the plurality of drive shafts and rotating to transport the object to be dried from the one end side to the other end side of the transportation surface and to drop the object from the opening to the transportation surface at the lower end,
A driving unit for rotating the driving shaft at an upper portion of the drying chamber,
A fixing shaft provided on a lowermost transport surface of the drying chamber,
And a seal liquid storage portion disposed in the shaft hole in the upper portion of the drying chamber and surrounding the drive shaft to store a seal liquid,
Wherein the drive unit suspends the drive shaft,
Wherein the fixed shaft is inserted into a lower end of the drive shaft to axially support the drive shaft,
Wherein the drive shaft includes a tubular member that surrounds the drive shaft and has an opening at the lower end and seals the upper end thereof in the shaft hole of the drying chamber,
And the lower end of the tubular member is immersed in the seal liquid in the seal liquid storage portion to seal the gas in the drying chamber into the drying chamber. The method according to claim 1,
Wherein the seal liquid reservoir is configured such that the lower end of the tubular member does not fall off from the seal liquid and the lower end of the tubular member does not contact the inner wall of the seal liquid reservoir even if the drive shaft moves in the horizontal direction, . The method according to claim 1,
Wherein the seal liquid reservoir further comprises a seal liquid tank which is provided for each of the drive shafts and supplies the seal liquid so as to maintain the liquid level of the seal liquid reservoir. The method according to claim 1,
Wherein the seal liquid is a mixture of water or oil, water and oil. The method according to claim 1,
A cyclone for removing dust contained in the heating gas; a deodorizing device for burning and deodorizing or detoxifying a part of the heating gas; a cooling water step for cooling the drying object; At least one drying unit. delete

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