KR101252664B1 - Dryer having weightlessness fluidized bed using micro wave - Google Patents

Abstract

The present invention relates to a weightless fluidized bed drying apparatus using microwaves, which allows drying by microwaves while allowing the to-be-dried body to stir by a plurality of mixing paddles and to float in a fluidized bed state.
To this end, the present invention is a housing of a predetermined volume is formed in the inlet door for the input of the dried object on the one side of the upper side, the discharge door for taking out the dried object is formed on the lower one side; A microwave unit mounted on an upper surface of the housing and irradiating microwaves downwardly toward the inside of the housing; Agitated dry matter consisting of a plurality of mixing paddles integrally mounted at equal intervals on the outer diameter surfaces of the first and second shafts and the first and second shafts installed and rotated in the housing in the left and right directions. Means; It is provided on one side of the housing, the driving means for driving the first and second shaft rotation; provides a zero gravity fluidized bed drying apparatus using a microwave, characterized in that it comprises a.

Description

Dryer having weightlessness fluidized bed using micro wave

The present invention relates to a gravity-free fluidized bed drying apparatus using microwaves, and more particularly, to a dry gravity-free fluidized bed drying using microwaves which allow the dried material to be dried by microwaves while being agitated by a plurality of mixing paddles. Relates to a device.

Microwave generally refers to electromagnetic waves from 1 GHz to hundreds of GHz. The heating principle of these microwaves is that when electromagnetic waves penetrate inside the entity and apply a high frequency electric field and magnetic field, the dipole rotates or vibrates in the molecule, and heat from internal friction This heating method is called, and this heating method is called dielectric heating or microwave heating.

Comparing the heating of the heating element using microwaves with the heating of the heating element in the form of heat conduction from an existing hot air or an external heat source, heating the heating element using microwaves is illustrated in FIG. 7. It is known that energy saving is achieved due to the mechanism of heating type.

In other words, drying using microwaves is not a surface-heating method, but rather a method of heating the entire interior, and shows various advantages, the most important of which is an improvement in drying speed. This is due to the fact that a relatively large temperature gradient occurs, which coincides with the moisture gradient, or that the mass transfer of moisture occurs in the vapor or liquid state, in addition to capillary and molecular migration.

Therefore, there is a need for technology development of a useful drying apparatus that can optimally dry a dry object using microwaves, which saves energy and improves the drying speed.

The present invention has been made in view of the above, and the to-be-drying body is agitated by the mixing paddle after putting the dry body into the housing in which a shaft having a plurality of mixing paddles is rotatably arranged in two rows or more. The object of the present invention is to provide a gravity-free fluidized bed drying apparatus using microwaves that can quickly dry a dried object by irradiating the microwaves downward from the microwave unit mounted on the upper side of the housing when it rises upward while being weightless.

The present invention for achieving the above object is the inlet door for the dry matter input is formed on one side of the upper side, the lower one side of the housing of a predetermined volume formed with a discharge door for drying the dried object is mounted, and is mounted on the upper surface of the housing Microwave unit for irradiating the microwave downward toward the interior of the housing, and the first and second shafts installed in the left and right directions in the interior of the housing and rotated at equal intervals on the outer diameter surface of the first and second shaft Drying agitating means consisting of a plurality of mixing paddles mounted to the non-gravity fluidized bed drying using microwaves, characterized in that it comprises a drive means installed on one side of the housing to rotate the first and second shafts; Provide a device.

In the present invention, the mixing paddle is arranged in a zigzag form and integrally formed on the outer diameter surface of the first and second shafts, and are integrally formed at an angle to the first and second shafts at the same time and integrally at the outer ends of the vertical bars. It consists of a paddle formed with; The drive means is mounted to one side end of the drive motor mounted on the lower end of one side of the housing, the drive gear mounted to the shaft of the drive motor, and the first and second shaft protruding through one side of the housing A first driven gear and a second driven gear and a power that is wound from the driving gear to the first and second driven gears so that the first driven gear rotates clockwise and the second driven gear rotates counterclockwise. A transmission chain and a tension control mechanism mounted on an upper end of one side of the housing to adjust the tension of the power transmission chain; The front and rear of the housing is mounted to open and close the maintenance window for observing the inside of the housing, it is characterized in that the air vent is mounted on the other upper side of the housing.

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The present invention provides the following effects through the above-mentioned problem solving means.

According to the present invention, when a plurality of mixing paddles rotate and stir upward while simultaneously stirring a plurality of mixing paddles into the housing, the microwaves are placed at the upper end of the housing when the dried body rises upward, that is, temporarily weightless. By irradiating downwards the drying can be dried very quickly.

Conventional hot-air drying method is a method of heating the dried object to reach the inside by heat transfer to blow water vapor, but the microwave drying method of the present invention is a method of sending heat from inside to blow water vapor for a short time It can have a high drying effect, thereby improving the energy saving effect.

In addition, the drying apparatus using the microwave of the present invention has the advantage of improving the space utilization, such as to reduce the installation space, so that the length of the equipment can be reduced to 1/3 compared to the hot air dryer.

In addition, the drying apparatus using the microwave of the present invention has the advantage that it is possible to obtain a quick and uniform drying, compared to the hot air dryer, and does not need to fumigation or other chemical treatment for the dry matter by reducing the drying time.

In addition, the drying apparatus using the microwave of the present invention is easier to increase the productivity as the drying equipment is small and the drying time is shortened.

1 and 2 is a front and rear perspective view showing a gravity-free fluidized bed drying apparatus using a microwave according to the present invention.
3 and 4 are a front view and a side view showing a gravity-free fluidized bed drying apparatus using a microwave according to the present invention.
Figure 5 is a perspective view of the main part showing the agitated means for drying the gravity-free fluidized bed drying apparatus using a microwave according to the present invention.
Figure 6 is a schematic diagram illustrating the operating state of the agitated means for drying the gravity-free fluidized bed drying apparatus using a microwave according to the present invention.
Fig. 7 is a schematic view for comparing and explaining a drying mechanism of microwaves and hot air;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention focuses on being able to dry quickly by microwave while allowing the to-be-dried body to be stirred by a plurality of mixing paddles and temporarily floating in zero gravity.

To this end, the present invention is provided with a housing 10 of a predetermined volume to dry the input is dried as shown in Figures 1 to 4 attached, the upper one side of the housing 10 for the input of the dry The inlet door 12 is mounted to be openable and close, and the discharge side 14 for discharging the dried object for discharging the dried object dried by the microwave while being stirred in the housing can be opened and closed at one lower side of the housing 10. Is fitted.

In addition, the front and rear of the housing 10 is mounted to the opening and closing of the maintenance window 16 of a predetermined size that can be maintained while observing the operating state of the agitated objects 30 installed in the housing.

In addition, the other side of the upper portion of the housing 10 is equipped with an air vent 18 that can discharge the waste heat and water vapor generated when the object to be dried by heating by microwaves.

In particular, the microwave unit 20 for irradiating the microwave downward toward the interior of the housing 10 is mounted on the upper surface of the housing 10, the microwave unit 20 is substantially a magnetron 22 that emits microwaves It includes.

According to the present invention, the agitated object agitation means 30 is installed inside the housing 10 while stirring the aphid.

Two or more rows of shafts in one configuration of the agitated construction means 30 are arranged and arranged along the left and right directions inside the housing 10, and preferably, two shafts, that is, the first and second shafts 31. , 32 are installed to rotate in opposite directions by the driving means.

That is, one end of the first and second shafts 31 and 32 is connected to a driving means 40 mounted on one side of the housing, and the other end is supported by a bearing mounted on the other side of the housing. 40 rotates in the opposite direction to each other.

In this case, a plurality of mixing paddles 33 which perform a function of stirring the object and lifting it upwards are integrally mounted at equal intervals on the outer diameter surfaces of the first and second shafts 31 and 32.

In more detail, as shown in FIG. 5, the mixing paddle 33 includes a plurality of vertical bars 34 and paddles 35 integrally formed at the outer end of the vertical bars 34. The vertical bars 34 are arranged in a zigzag shape on the outer diameter surfaces of the first and second shafts 31 and 32 and are integrally formed. The paddles 35 are manufactured in the shape of a spatula, and thus, the first and second shafts. It is arranged obliquely with respect to (31, 32) and is integrally mounted to the outer end of the vertical bar (34).

One side of the housing 10 is provided with a driving means 40 for rotating the first and second shafts 31 and 32 in opposite directions.

A drive motor 41 for providing rotational power in one configuration of the drive means 40 is mounted at one lower end of the rear surface of the housing 10, and a drive gear 42 is provided on an axis of the drive motor 41. It is mounted integrally.

In addition, as another configuration of the drive means 40, the first and second driven gear 43 and the second driven gear 44 protrudes through one side of the housing 10, the first and second shafts (31, 32) Are attached to one end of each).

In this case, the first and second driven gears 43 and 44, including the driving gear 42, are wound by one power transmission chain 45, as shown in FIGS. 1 and 2. The first driven gear 43 is rotated in the clockwise direction and simultaneously wound so that the second driven gear 44 is rotated in the counterclockwise direction.

On the other hand, the upper side of one side of the housing 10 is equipped with a conventional tension control mechanism 46 for adjusting the tension of the power transmission chain 45 while pulling or releasing the power transmission chain 45.

Here, the operational state of the gravity-free fluidized bed drying apparatus using the microwave of the present invention having the configuration as described above is as follows.

First, the inlet door 12 for the input of the dry object of the housing 10 is opened to inject the dry item, and then the inlet door 12 for the dry object is again closed.

Subsequently, when power is applied to the drive motor 41 in the configuration of the drive means 40, the drive gear 42 rotates in one direction at the same time as the drive of the drive motor 41 rotates, the power transmission chain 45 ) Will make a circular movement.

At the same time, the power of the power transmission chain 45 is transmitted to the first driven gear 43 and the second driven gear 44. At this time, the first driven gear 43 rotates clockwise and at the same time the first shaft ( 31 also rotates in a clockwise direction, and the second driven gear 44 rotates counterclockwise, while the second shaft 32 also rotates counterclockwise.

Therefore, a plurality of mixing paddles 33, which are integrally mounted on the outer diameter surface of the first shaft 31, that is, a plurality of mixing paddles 33 each including a vertical bar 34 and a paddle 35 are clockwise. And a plurality of mixing paddles 33 composed of a plurality of mixing paddles 33, ie, vertical bars 34 and paddles 35, which are integrally mounted on the outer diameter surface of the second shaft 32 at the same time. Will rotate counterclockwise.

At this time, the mixing paddle 33 of the first shaft 31 and the mixing paddle 33 of the second shaft 32 are rotated in opposite directions to agitate the dry items and at the same time lift the dry items upwards. Will be performed.

Accordingly, as indicated by a circle in FIG. 6, the dry object lifted upward by the mixing paddle 33 is in a state of rising upward, that is, temporarily in a fluidized bed state, and at this time, the microwave unit mounted on the upper side of the housing. By irradiating the microwaves from the magnetron 22 of (20), the microwaves are evenly transmitted to the temporarily dried object to be dried, so that drying of the dried object can be made very quickly.

When the drying of the dry goods is completed, the dry goods discharged door 14 mounted on the lower side of the housing 10 is opened to take out the dry goods to be dried.

According to the present invention, the dry matter in the housing is rapidly dried by internal heat generation by microwaves, so that not only the energy required for drying is reduced but also the drying time is shortened, thereby improving productivity.

10 housing 12 inlet door
14: discharge door 16: maintenance window
18: air vent 20: microwave unit
22: magnetron 30: dry agitating means
31: first shaft 32: second shaft
33: mixed paddle 34: vertical bar
35 paddle 40 drive means
41: drive motor 42: drive gear
43: first driven gear 44: second driven gear
45: power transmission chain 46: tension control mechanism

Claims (5)

The inlet door 12 for the input of the dry matter is formed on one side of the upper side, and the housing 10 of a predetermined volume having a discharge door 14 for taking out the dried product on the lower side thereof is mounted on the upper side of the housing 10. And the microwave unit 20 for irradiating the microwave downward toward the inside of the housing 10, and the first and second shafts 31 and 32 that are installed and rotated in the housing 10 along the left and right directions. Drying agitating means (30) consisting of a plurality of mixing paddles (33) integrally mounted at equal intervals on the outer diameter surfaces of the first and second shafts (31, 32), and one side surface of the housing (10) In the non-gravity fluidized bed drying apparatus using microwaves, which includes a driving means 40 installed in the rotary shaft to drive the first and second shafts 31 and 32.
The mixing paddle 33 is vertically arranged in a zigzag form and integrally formed on the outer diameter surfaces of the first and second shafts 31 and 32, and the first and second shafts 31 and 32. It consists of a paddle 35 which is arranged obliquely with respect to and is integrally formed at the outer end of the vertical bar 34; The driving means 40 may include a driving motor 41 mounted at one lower end of the rear surface of the housing 10, a driving gear 42 mounted on a shaft of the driving motor 41, and the housing 10. A first driven gear 43 and a second driven gear 44 mounted at one end of the first and second shafts 31 and 32 protruding through one side, and the first and second driven gears 44 from the driving gear 42; A power transmission chain 45 wound around the second driven gears 43 and 44 and wound so that the first driven gear 43 is rotated clockwise and the second driven gear 44 is rotated counterclockwise; It is mounted to the upper end of one side of the housing 10 is composed of a tension control mechanism 46 for adjusting the tension of the power transmission chain (45); The front and rear of the housing 10, the maintenance window 16 for observing the inside of the housing is mounted to open and close, the upper side of the housing 10 is characterized in that the air vent 18 is mounted Zero gravity fluidized bed drying device using microwave. delete delete delete delete

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