JP2959870B2 - Nozzle device of steel belt type cooler - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a nozzle device in a steel belt type cooler for efficiently cooling various articles.

[0002]

2. Description of the Related Art A steel belt type cooler is generally used to supply a material to be cooled having a viscous viscosity onto an endless steel belt and spray cooling water or liquid from the back of the belt to continuously cool and solidify the material. Used. In this steel belt-type cooler, since the cooling water is jetted at a high pressure from the back of the endless steel belt, the cooling water colliding with the back of the belt rebounds in a mist and scatters around four times. In order to prevent the cooling water from scattering, the steel belt side is covered with a cover, and the entire area below the belt is sealed.

[0003]

The cooling water injected at a high pressure collides with the back surface of the belt and becomes a mist, and is scattered around four times. In order to prevent this, the covers on both sides of the belt must be arranged so as to be dense with the end of the moving belt and to close the entire lower part of the belt. If there is a small gap, the mist of the cooling water will scatter from this gap, so the cover fixed to the belt and the end face of the belt must be installed in multiple places so that the cover can be installed and the lower part of the belt sealed. Is troublesome.

[0004] It is an object of the present invention to suppress the rebound of cooling water and to facilitate the installation of a cover by changing the installation, shape and injection pressure of the nozzle.

[0005]

DISCLOSURE OF THE INVENTION The present invention has been made to achieve the above-mentioned object, and cooling water injection nozzles are arranged on both sides of the endless steel belt which is driven to be stretched at a position below the back of the outward path. At the same time, the nozzle is directed inward at an angle of 30 to 60 degrees to the back of the steel belt .
The cooling water supply pipe which is disposed in such a manner as to be supplied at a pressure low enough to cause the cooling water jetted from the nozzle to diffuse in a thin film along the back of the belt is connected to the nozzle.

[0006]

The nozzle for cooling water injection which is arranged toward the back of the steel belt is attached to the back of the steel belt by 30 degrees.
Cooling water is supplied at a low pressure to the inside at an angle of up to 60 degrees, and even if it collides with the belt, the cooling water diffuses in a thin film along the back of the belt with the collision energy. I do. For this reason, it does not scatter in a mist,
The cover and the structure are simplified.

[0007]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below based on the illustrated embodiment. In the figure, reference numeral 1 denotes a steel belt, which is formed endlessly from a stainless steel plate having a required width and length, and stretched by disposing rollers 2 and 2 provided on a cooling machine frame F at both ends of the steel belt. Is done. One of the rollers 2 is driven at a constant speed or variable by a driving device 3, and the other roller is provided with a tensioning device (not shown) so as to keep the tension of the steel belt constant. A water receiving tank 4 is provided below the steel belt at a position below the back surface of the steel belt to receive the cooling water sprayed from the nozzle after contacting the back surface of the belt and then falling.
The water receiving tank 4 is disposed over substantially the entire length of the back surface of the steel belt 1. The water receiving tank 4 has a width substantially equal to or slightly larger than the width of the steel belt 1, but has a length. Appropriately determined so that manufacture and assembly can be easily performed, two or more water receiving tanks are arranged adjacent to each other in a row and connected between the water receiving tanks. Is plumbed.

Receiving rollers 6 are provided at required intervals between the rollers 2 and 2 of the steel belt 1 so that the forward side of the steel belt does not slack, thereby preventing the belt from hanging down in the forward path and reducing its flatness. Let me keep.

A large number of nozzles 7 are provided on the back of the steel belt outward so as to spray cooling water or cooling liquid toward the back of the steel belt. The nozzles 7 are cooled substantially uniformly over the entire length of the steel belt. It is arranged so that.

As shown in FIGS. 1 and 3, the nozzle 7 is disposed at an angle of 30 to 60 degrees toward the inside of the belt (center side) with respect to the back of the steel belt.
Are arranged opposite to each other on the both sides of the steel belt, and are arranged at required intervals in the longitudinal direction of the belt, or the nozzles 7 on both sides of the belt are arranged in a staggered manner, and the spray diffusion angle of each nozzle 7 is set to 40 to 70. Degree.

As a result, at a relatively lower pressure than each nozzle 7,
When the cooling water sprayed toward the belt back surface contacts the belt back surface, the cooling water is naturally diffused along the belt back surface by the spray pressure and angle. When the cooling water is diffused along the belt back surface, the tip of the nozzle reaches at least the center of the belt by the cooling water spray pressure that collides with the belt back surface, and is diffused in a thin film shape around the nozzle in four circumferential directions. Is determined as follows. And collided with the back of the belt,
The impact energy makes it mist and does not bounce.

Further, on both sides of the steel belt 1, covers 8, 8 fixed below the frame are provided. The cover 8 is desirably a transparent plate, and is disposed so as to be opposed to the edge of the belt. A gap may be formed between the cover 8 and the edge of the belt. This cover is supplementary and merely prevents impurities from entering the water receiving tank and prevents the cooling water from directly escaping.

The nozzle 7 is connected to a pipe 9 for supplying cooling water. Although not shown, water is collected in a water receiving tank, cooled by a cooler, and then injected again from the nozzle. Cooling water is used for circulating cooling. The nozzle 7 may be formed by drilling a number of small holes at predetermined intervals in a pipe provided below the steel belt. The method of drilling a hole directly in this pipe is suitable for cooling with a steel belt inclined,
When the steel belt is horizontal, it is preferable to use the nozzle 7 described above, but it is also possible to adopt a pipe drilling method even when the steel belt is horizontal.

[0014]

According to the present invention nozzle of the steel belt type cooling machine of the present invention
According to the device, the nozzle is positioned against the back of the steel belt.
Arranged inward at an angle of 30 to 60 degrees, and
Cooling water injected from the nozzle is thin along the back of the belt
Cooling water supply pipe that supplies at a pressure low enough to diffuse into a film
Is connected to the nozzle, so that the collision energy of the cooling water is small, and the cooling water does not rebound and scatter, so that the structure is simplified and the cover can be easily installed.

[Brief description of the drawings]

FIG. 1 is a vertical sectional side view showing a nozzle device of a steel belt type cooler of the present invention.

FIG. 2 is a front view of the same.

FIG. 3 is an explanatory diagram of a nozzle unit.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Steel belt 2 Roller 4 Water receiving tank 7 Nozzle 8 Cover

Claims (1)

(57) [Claims] 1. A cooling water injection nozzle is disposed on both sides of the endless steel belt, which is driven by a stretch, at a position below the back of the forward path, and the nozzle is arranged at an angle of 30 to 60 degrees with respect to the back of the steel belt. Arranged to face inward
And and along the cooling water belt back ejected from the nozzle
What thin film form a cooling water supply pipe for supplying degree of lower pressure to diffuse formed by connecting the nozzle to the steel belt cooler of the nozzle device.