JP7277961B2 - Disk type dryer - Google Patents

Description

TECHNICAL FIELD The present invention relates to a disk-type drying apparatus that attaches a material to be dried to the surface of a rotating disk, dries the material by the heat of the surface of the disk, and then peels off the material to be dried from the surface of the disk. .

2. Description of the Related Art Conventionally, a disk-type drying apparatus has been used to dry a liquid material to be dried into a solid form. In this disk-type drying apparatus, a disk heated by a heat source is rotated, a liquid material to be dried discharged from a nozzle is adhered to the surface of the rotating disk, the material to be dried is dried by the heat of the surface of the disk, and then dried. , a scraper is used to scrape off and recover solid dried matter from the surface of the disk.

In this conventional disk-type drying apparatus, the disk is formed in the shape of a hollow disk, and a boiler as a heat source is connected to the hollow portion of the disk so that steam as a heat medium generated by the boiler is introduced into the interior of the disk. It was configured to feed and heat the surface of the disk (see, for example, Patent Document 1).

Japanese Patent Application Laid-Open No. 2002-206856

The above-mentioned conventional disk-type drying apparatus is applied to various applications because it can continuously dry a liquid material to be dried, but it requires a boiler that generates steam as a heat source for heating the surface of the disk. For this reason, there is a risk that the entire device will become large and that the device will use fossil fuels and have low energy efficiency.

Therefore, in the present invention according to claim 1, the object to be dried is adhered to the surface of the rotating disk, and after the object to be dried is dried by the heat of the surface of the disk, the object to be dried is peeled off from the surface of the disk. In a mold drying apparatus, a plurality of mounting holes are formed radially from the center of rotation inside the disk, each mounting hole accommodates a rod-shaped electric heater , and the mounting holes penetrate straight to the outer peripheral edge of the disk. made it

Further, in the present invention according to claim 2, in the present invention according to claim 1, a plurality of rod-shaped electric heaters are radially evenly arranged inside the disk from the inner circumference side to the outer circumference side of the disk. It was to be.

Further, in the present invention according to claim 3, in the present invention according to claim 2, more electric heaters are arranged on the outer peripheral side than on the inner peripheral side of the disk.

And in this invention, there exists an effect described below.

That is, in the present invention, in a disk-type drying apparatus in which a material to be dried is adhered to the surface of a rotating disk, the material to be dried is dried by the heat of the surface of the disk, and then the material to be dried is peeled off from the surface of the disk, Since the electric heater is provided inside the disk, it is possible to save space and energy for the disk-type drying apparatus.

In particular, when a plurality of rod-shaped electric heaters are radially evenly arranged inside the disk from the inner circumference side to the outer circumference side of the disk, the temperature in the circumferential direction on the surface of the disk can be made uniform. and the material to be dried can be satisfactorily dried on the surface of the disc.

Further, when more electric heaters are arranged on the outer peripheral side of the disk than on the inner peripheral side, the temperature in the radial direction of the disk surface can be made uniform, and the material to be dried can be heated on the disk surface. It can be dried even better.

The front view (a) and right side view (b) which show the disc-shaped drying apparatus which concerns on this invention. Front view (a) and right side view (b) of the disc. Front sectional drawing (a) of a disk, same side sectional drawing (b).

A specific configuration of the disk-type drying apparatus according to the present invention will be described below with reference to the drawings.

As shown in FIG. 1, the disk-type drying apparatus 1 has a control section 3 provided on the upper left side of the base 2 and a processing section 4 provided on the upper right side of the base 2 .

The control unit 3 is provided with a control panel 5 on the upper left front side of the base 2 and a driving source 6 behind the control panel 5 so that the driving source 6 is controlled by the control panel 5 .

The processing unit 4 has a rectangular plate-like support 7 attached to the upper part of the base 2 and a disc-like disk 8 vertically arranged on the right side of the support 7 .

The disc 8 is connected to a drive source 6 via a drive shaft 9 and is rotated back and forth (counterclockwise when viewed from the right side) by the drive source 6 .

On the left and right sides of the disk 8, nozzles 10, 10 are provided on the rear side for ejecting the liquid material to be dried toward the surface of the disk 8, and on the front side, the solid material after the drying process. Scrapers 11 , 11 are provided for scraping the material to be dried from the surface of the disc 8 . Directly below the nozzles 10, 10, a storage container 12 is provided for storing the liquid material to be dried that has dripped from the surface of the disk 8 and has not yet been dried. Also, directly below the scrapers 11, 11, a recovery container 13 for recovering the solid matter to be dried separated from the surface of the disk 8 is provided via a shooter 14. As shown in FIG. The storage container 12 and collection container 13 are placed on a support base 15 attached to the support 7 .

A hood 16 is provided above the disk 8 so that steam generated by the drying process can be discharged.

As shown in FIGS. 2 and 3, the disk 8 accommodates therein a plurality of (here, 36) electric heaters 17 and 18 as heat sources for heating the surface (left and right side surfaces). The electric heaters 17 and 18 are connected to a power supply through slip rings or the like.

The disk 8 is formed of a cylindrical shaft portion 19 connected to the drive shaft 9 and a horizontal annular disk portion 20 connected to the outer periphery of the shaft portion 19. The opposite side is covered with a disc-shaped cover 21 .

The disk 8 is radially circumferentially mounted from the center (rotation center) through a plurality of (here, 36) mounting holes 23 linearly penetrating from the hollow portion 22 of the shaft portion 19 to the outer peripheral edge of the disk portion 20. The rod-like electric heaters 17 and 18 having different lengths are alternately formed in each mounting hole 23 and are formed evenly at equal angular intervals (in this case, 10-degree intervals). The inner peripheral surface of each mounting hole 23 and the outer peripheral surfaces of the electric heaters 17 and 18 are in close contact with each other.

Thus, inside the disk 8, a plurality of rod-shaped electric heaters 17, 18 are evenly arranged radially from the inner peripheral side of the disk 8 toward the outer peripheral side. This allows the surface of the disk 8 to be heated uniformly.

Here, the long electric heater 17 is used to extend from the inner peripheral edge of the disk portion 20 to the outer peripheral edge thereof. It is designed to heat up to the outer peripheral side.

The short electric heater 18 has a length from the middle of the disk portion 20 to the end of the outer circumference so that the disk 8 (disk portion 20) can be heated from the middle to the outer circumference. ing.

In this manner, the electric heaters 17 and 18 having different lengths are radially alternately accommodated inside the disk 8, and the short electric heater 18 is arranged on the outer peripheral side. More electric heaters 17 and 18 are arranged on the outer peripheral side than on the inner peripheral side. As a result, the inner peripheral surface and the outer peripheral surface of the disk 8 can be evenly heated. In addition, the distance between the ends of the long electric heaters 17, 17 in the circumferential direction on the inner peripheral side of the disk 8 (inner peripheral end of the disk portion 20) and the long electric heating on the outer peripheral side of the disk 8 (outer peripheral end of the disk portion 20) The circumferential distance between the ends of the heater 17 and the ends of the short electric heaters 18 may be equal.

The disk-type drying apparatus 1 is configured as described above. In the disk-type drying apparatus 1, the disk 8 is rotated by the drive source 6, and the nozzles 10, 10 are arranged on the surface (left and right side surfaces) of the rotating disk 8. The material to be dried is adhered to the surface of the disk 8 by discharging the material to be dried in a liquid state before the drying process from the disk 8, and after drying the material to be dried into a solid state by the heat of the surface of the disk 8, the material to be dried is It is peeled off from the surface of disk 8 by scrapers 11,11. The peeled solid material to be dried is collected in the collection container 13 . A surplus portion of the liquid material to be dried discharged from the nozzles 10 toward the surface of the disk 8 is stored in the storage container 12 .

As described above, the disk-type drying apparatus 1 is constructed such that the electric heaters 17 and 18 are provided inside the disk 8 .

Therefore, the disk-type drying apparatus 1 having the above configuration does not require a conventional boiler or the like, and can achieve space saving and energy saving of the disk-type drying apparatus 1 .

The disk-type drying apparatus 1 has a structure in which a plurality of rod-shaped electric heaters 17 and 18 are evenly arranged radially from the inner circumference side to the outer circumference side of the disk 8 inside the disk 8 .

Therefore, in the disk-type drying device 1 having the above configuration, the temperature in the circumferential direction on the surface of the disk 8 can be made uniform, and the material to be dried can be satisfactorily dried on the surface of the disk 8 .

Further, the disk-type drying device 1 has a structure in which more electric heaters 17 and 18 are arranged on the outer peripheral side of the disk 8 than on the inner peripheral side.

Therefore, in the disk-type drying device 1 having the above configuration, the temperature in the radial direction on the surface of the disk 8 can be made uniform, and the material to be dried on the surface of the disk 8 can be dried even more satisfactorily.

REFERENCE SIGNS LIST 1 disk type drying device 2 base 3 control unit 4 processing unit 5 control panel 6 drive source 7 support 8 disk 9 drive shaft 10 nozzle
11 scraper 12 container
13 collection container 14 shooter
15 Support base 16 Hood
17,18 Electric heater 19 Shaft
20 Disc 21 Cover
22 Hollow part 23 Mounting hole

Claims (3)

In a disc-type drying apparatus, the material to be dried is adhered to the surface of a rotating disk, dried by the heat of the surface of the disk, and then peeled off from the surface of the disk,
A disc characterized by forming a plurality of mounting holes radially from the center of rotation inside the disc, accommodating a rod-shaped electric heater in each of the mounting holes , and extending the mounting holes linearly through the disc to the outer peripheral end of the disc. Mold drying equipment. 2. The disk-type drying apparatus according to claim 1, wherein a plurality of rod-shaped electric heaters are radially evenly arranged inside the disk from the inner circumference side to the outer circumference side of the disk. 3. The disk-type drying apparatus according to claim 2, wherein more electric heaters are arranged on the outer circumference side than on the inner circumference side of the disk.

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