KR0160357B1 - Drying apparatus of silica-gel and the method thereof - Google Patents

Abstract

The present invention provides a water vapor evaporation step of evaporating the water of silica gel with 120 占 폚 heat with a west wind of m (F) of 10 rpm in a state in which 80% of the circulation pipe 21 and 20% of the discharge pipe are opened; A steam removal process of opening 20% of the circulation pipe 21 and 80% of the discharge pipe, converting the f (F) into a breeze of 100 rpm, and supplying 120 占 폚 heat to the silica gel; Shrinkage process of converting F (F) to 500rpm and supplying 120 占 폚 heat to silica gel while opening 80% of the circulation pipe 21 and 20% of the discharge pipe; In the state that 80% of the circulating pipe 21 and 20% of the discharge pipe are opened, 휀 (F) is converted into a strong wind of 200 rpm, and a drying process is sequentially performed to supply 140 占 폚 heat to the silica gel. It is to provide a method for drying the silica gel and the apparatus so that the silica gel can be dried in a state of maintaining the original shape without damaging the silica gel.

Description

Drying apparatus and method of silica gel

The present invention relates to a drying apparatus and method of silica gel, and in particular, to distribute heat evenly by a guide, and to separate the heat temperature and drying method in a multi-step manner so that the silica gel can be dried without breakage. It relates to a drying apparatus of silica gel and a method thereof.

Generally, silica gel is packaged and packaged together with packaged goods such as food and the like, and has been widely used as a desiccant.

Silica gel bed (Bead = Bead) type and Granule (Granule = Grain) type which have been used for the said use are divided.

Since the silica gel is made of 80% moisture and 20% silicon oxide, it is used to remove moisture by 1% or less by drying it.

Known means for removing the moisture are clearly shown in FIG.

Boiler (2) equipped with burner (1) and drying furnace (4) for receiving the heat of the boiler (2) supplied through the transfer pipe (3) and discharge pipe for discharging the heat of the drying furnace (4) to the outside )

The upper part of the drying furnace (4) is composed of a heat dissipation plate (6), the body is fixed to the center (7) is installed in the upper side of the drying chamber (8) and the lower side is used as a discharge chamber (9) consist of. When the drying method using the conventional drying device having the above structure is described, the silica gel is quantitatively injected into the drying chamber 8, and then the temperature of air is raised by about 140 ° C. as a burner to be supplied to the drying furnace 4.

The heat supplied to the drying furnace is diffused by the heat dissipation plate 6 to dry the silica gel and then discharged to the outside through the discharge pipe 5 formed in one side wall of the discharge chamber 9 through the mesh 7.

However, the method of drying the silica gel with the drying apparatus brings the following defects.

That is, even though the heat introduced into the drying furnace 4 is dispersed by the heat dissipation plate 6, since the discharge pipe 5 is located on one side wall, the heat is concentrated in the direction of the discharge port, and heat is transferred to the (a) and (b) parts. Defects such that there is little so that the silica gel cannot be evenly dried; Since heat is supplied at the same temperature, the surface of the silica gel is first dried, and the tissue becomes hard. When internal moisture is released, cracks are generated in the surface tissue, and the silica gel does not maintain its shape and is damaged.

The inventors have developed in order to solve the above defects, so that the heat dispersed by the heat dispersing plate is distributed evenly on the surface of the silica gel by the heat guide, and the discharge chamber is formed in the hopper state, and then the discharge pipe is formed at the center thereof. The purpose of the present invention is to provide a device that can achieve a smooth and even dry state and maximize the drying efficiency by circulating heat by the heat circulation tube.

Another object of the present invention to provide a device that can dry the silica gel without damage by configuring the temperature of the heat supplied to the drying furnace in a multi-step manner.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings, the burner (11) is equipped with a burner (12) and the heat supplied through the transfer pipe 13, the heat (F) fired the boiler 12 The furnace 14 and the discharge pipe 15 for discharging the heat of the drying furnace 14 to the outside, the heat distribution plate 16 is formed on the upper side of the drying furnace 14, the net body 17 in the center In the conventional drying apparatus consisting of a fixed installation, the upper side to the drying chamber 18, the lower side to the discharge chamber 19, which is fixed below the heat dissipation plate 16 by means such as the discharge chamber 19 and welding. After constructing the heat guide (20) and the discharge chamber (19) in the hopper state, the circulation pipe 21 for forming the discharge pipe 15 in the center and connecting the transfer pipe 13 and the discharge pipe (15) Is installed so that the heat is circulated, but the circulation pipe 21 and the discharge pipe 15 is installed in each of the valves 39 to control the amount of transport is configured to adjust the amount of sil Looking at the drying method using the drying device using the drying device as the drying device of the cargel, by using the valve 21a installed in the circulation pipe 21 to open the pipe state 80% and installed in the discharge pipe 15 With the valve 15a open at 20%, the fan (F) is operated at a slow wind speed of about 10 rpm.

In this state, the heat heated in the boiler 12 is continuously supplied to the drying furnace 14 through the transfer pipe 13 by the F (F).

The heat supplied to the drying furnace 14 is guided by the dispersion plate 16 and the heat guide 20 so that the moisture temperature of the inside and the outside of the silica gel is about 120 ° C.

At this time, maintaining the temperature of 120 ℃ is a temperature that can evaporate the internal and external moisture without bringing a change in the physical properties on the surface of the silica gel when heated to steam this recycle 80% through the circulation pipe 21 Go through the evaporation process.

When the internal and external moisture of the silica gel is evaporated in the above state, 20% of the circulation pipe 21 is opened and 80% of the discharge pipe 15 is opened while the boiler temperature is maintained at 120 ° C. by the steam removal process. F) is converted from the west wind to the breeze of about 100 rpm.

In this state, 20% of the water vapor evaporated during the vapor evaporation process and 80% of the water vapor are discharged.

At this time, as the evaporation is completed in a state in which physical properties are not changed by 20% of the steam being recycled, the silica gel is gradually contracted.

When the shrinkage is made, the F (F) is about 500rpm in the west wind, so that the rapid shrinkage is achieved, and when the shrinkage process is completed, the surface is dried tightly and a surface drying step is performed to remove a small amount of remaining water. .

At this time, 휀 (F) is converted to a strong wind of 200rpm and by applying heat to the silica gel at a temperature of about 140 ℃ it is possible to perform a drying process to completely remove the moisture while heat-treating the surface firmly.

Silica gel to be dried by the apparatus and method of the present invention operated as described above is to go through the steam evaporation step, steam removal step, shrinkage step and drying step in order to be able to dry the silica gel without damage to the surface.

1 is a cross-sectional view of a conventional silica gel drying device

2 is a cross-sectional view of the silica gel drying apparatus of the present invention

* Explanation of symbols for the main parts of the drawings

11: burner 12: boiler

13: transfer pipe 14: dryness

15: discharge pipe 16: heat dispersion plate

17: mesh 18: drying chamber

19: discharge chamber 20: heat guide

21: circulating pipe F: 휀

Claims (2)

The heat of the drying furnace 14 and the drying furnace 14 which are supplied through the boiler 12 equipped with the burner 11 and the transfer pipe 13 equipped with heat (F) of the boiler 12 is externally supplied. It is composed of a discharge pipe 15 for discharging the furnace, the heat dissipation plate 16 is formed on the upper side of the drying furnace 14, the net body 17 is fixedly installed in the center and the upper side is discharged to the drying chamber 18 In the conventional drying apparatus composed of the chamber 19, the heat guide 20 is formed below the heat dissipation plate 16, and the discharge chamber 19 is configured in the hopper state, and then the discharge pipe 15 is disposed at the center thereof. And a valve 30 which is connected to each other by a circulation pipe 21 connecting the transfer pipe 13 and the discharge pipe 15 and adjusts the transfer amount on the connection portion of the discharge pipe 15 and the circulation pipe 21. Silica gel drying device is installed so that the heat is circulated in different amounts. Injecting the silica gel into the drying chamber 18 of the drying apparatus; Steam to evaporate the moisture of silica gel using 120 ° C heat with west wind with F0 of 10rpm while the valve 30 is opened such that the circulation pipe 21 and the discharge pipe 15 are 80% and 20%, respectively. Evaporation process; opening the valve 30 so that the circulation pipe 21 and the discharge pipe 15 become 20% and 80%, respectively, and converts f (F) into a breeze of 100 rpm and supplies heat of 120 ° C. to the silica gel. Water vapor removal step; converts F to 500 rpm and supplies 120 ° C heat while the valve 30 is opened so that the heat transfer amount of the circulation pipe 21 and the discharge pipe 15 is 80% and 20%. A method of drying a silica gel, comprising: drying a silica gel by sequentially performing a drying step of converting 휀 (F) to 200 rpm and supplying 140 ° C. heat to the silica gel in a state where the shrinkage process is completed.