KR920002143Y1 - Scale removers nozzle - Google Patents

Abstract

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Description

Descaling Nozzle

1 and 2 show an embodiment of a descaling nozzle according to the present invention,

1 is a partial cut longitudinal cross-sectional view.

2 is a perspective view of a rectifying plate.

3 is a longitudinal sectional view showing a conventional nozzle for descaling.

* Explanation of symbols for main parts of the drawings

1 nozzle 4 nozzle

5: groove 6: rectification plate

A: Inner flow path B: Inner straight part

C: inner tapered part

The present invention relates to a descaling nozzle which is used to remove a scale of its surface by spraying a high pressure fluid (for example, water) on a surface of a rolled steel sheet or the like.

Such a descaling nozzle is generally used in a plurality of communication pipes spaced apart from each other at an appropriate interval in the longitudinal direction by one main pipe, but when the fluid is introduced into the nozzle from the main pipe, By turning spirally in the flow path in the nozzle, it reaches its ejection port, whereby the fluid to be ejected in the form of a band does not form a straight line but diffuses in a wave form and its ejection width is also widened.

Therefore, there is a problem that not only the partial pressure of the fluid sprayed on the surface of the steel sheet is lowered, but also it becomes a non-uniform injection state, thereby making the scale removing action of the steel sheet surface uneven and the precision extremely poor and inefficient.

Thus, in order to solve this problem, as shown in FIG. 3, the internal flow path A 'of the scale removing nozzle 1' having the ejection opening 4 'provided with the groove 5' in the radial direction at the distal end thereof. Is formed in a substantially straight line, and a descaling plate 6 'made up of a wing columnar body for rectifying the fluid in the axial center direction is provided at the fluid inlet portion of the inner flow path A'. It is proposed that a part without a rectifying plate is provided between the rectifying plate 6 'and the blower outlet 4', specifically, an inner surface straight portion B 'whose inner surface is an inner surface of the barrel as a nozzle for the nozzle. (See publication 50-23610).

In the case of using such a descaling nozzle, the fluid flowing in the inner flow path A 'by the presence of the rectifying plate 6' is present in the inner straight portion B 'after the helical motion is prevented. As a result of stagnation, the problem is greatly improved. However, the fine point causes the diameter of the flow path A 'to be discontinuously reduced between the inner straight portion B' and the spout 4 '. For this reason, the fluid flowing in the flow path A 'is discontinuously clamped to cause some disturbance.

And this disturbance becomes a factor which increases the said problem.

The present invention aims to solve these factors and to further improve the above problems.

The descaling nozzle according to the present invention has an inner flow path of the descaling nozzle having a jetting port provided with a radial groove at the distal end in a substantially straight line, and rectifies the fluid in the axial center direction at the fluid inlet portion of the inner flow path. A scale removal nozzle provided with a rectifying plate made of a wing-shaped columnar body, wherein a straight portion whose inner surface is a staff inner surface between the rectifying plate and the jet port, and the inner straight portion and the inner surface are smoothly continued and the inner surface is smooth. In order to reduce the diameter of the flow path linearly from the inner diameter of the inner straight portion to the inlet diameter of the spout, the inner surface is provided with an inner taper portion of which the inner surface is a gentle inclined surface.

In the descaling nozzle having such a configuration, the inner surface taper portion is provided in addition to the inner surface straight portion between the rectifying plate and the spray port, so that the flow path is gradually and immediately before the spray port due to the presence of the taper portion. After the diameter is smoothly reduced, the outlet is reached.

Accordingly, the fluid passing through the flow path is stagnated after the helical motion is prevented by the presence of the rectifying plate and the inner straight portion, and is then gradually tightened by the presence of the inner tapered portion. A slight disturbance can be eliminated and the problem can be further improved.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

1 is a longitudinal cross-sectional view of the nozzle for removing the scale 1 according to the present invention, in which the injection port attachment member 3 is attached to and detachably attached to the fluid injection side of the main body 2 of the nozzle 1. The injection hole 4 is formed in the front-end | tip part of the injection hole attachment member 3.

At the distal end of the injection port 4, a groove 5 in the radial direction for injecting the fluid into a strip is formed.

In the center of the nozzle 1, an inner flow path A is formed in a substantially straight line in the axial direction thereof, and a rectifying plate 6 for rectifying the fluid in the axial direction in the fluid inlet portion of the inner flow path A. Specifically, as shown in Fig. 2, a rectifying plate 6 made of a wing-shaped columnar body which is combined in a plurality of wing-like bodies 6a in a radial shape is provided.

In addition, between the rectifying plate 6 and the spout 4, the inner straight portion (B) and the inner surface is smoothly continuous and the inner diameter of the inner flow path (A) is the inner straight portion Inner surface taper (C) whose inner surface is a mild inclined inner surface in order to gradually reduce the diameter linearly until the inlet of the jet port 4 at the inner diameter of (B), that is, improve the inner surface of the middle part of the jet port attachment member 3 The inner surface taper part C formed by setting it as the above shape is provided.

In the descaling nozzle of such a configuration, since the inner surface taper portion C is provided in addition to the inner surface straight portion B between the rectifying plate 6 and the spout 4, the tapered portion ( Due to the presence of C), the flow path A is gradually and smoothly reduced in diameter directly at the jet port 4 and reaches the jet port 4.

As a result, the fluid flowing through the flow path A is stagnated after the helical motion is supported by the presence of the rectifying plate 6 and the inner straight portion B, and then the inner tapered portion C. As a result of being gradually tightened by the presence of, it is possible to eliminate the slight disturbance of the fluid conventionally generated in the portion, and to further improve the problem.

In addition, a plurality of narrow narrow holes 2a are formed in the proximal end of the nozzle body 2, and the fluid introduced into the nozzle body 2 and flowing through the internal flow path A passes through the thin holes ( Since the thin holes 2a are introduced through the group 2a), they serve as filters.

In addition, (7) in the drawing is an installation member configured to be fitted with the tip side of the jetting outlet attachment member 3 from the outside and screwed so that the proximal side is fitted into the through hole 8a of the main pipe 8 and fixed. Through the mounting member 7, the nozzle 1 of the present invention is attached to the main pipe 8 to be fixed.

Incidentally, the inclination angle of the mildly inclined inner surface of the inner tapered portion C needs to be 5 ° to 15 °.

If the diameter is larger than 15 °, the diameter A is rapidly reduced immediately before the jet port 4, and the above-described effect cannot be expected. If the diameter is smaller than 5 °, the inner tapered portion ( This is because the length of the C) becomes longer than necessary, so that the total length of the nozzle 1 is not practical, or there is no room for providing the rectifying plate 6 or the inner straight portion B.

Next, the effect of the nozzle of this invention mentioned above is demonstrated using a specific numerical value.

The first table summarizes the results of the measurement of the impact force (maximum value) in the injection direction of the fluid (specifically, water) injected from the descaling nozzle.

At this time, the inclination angle of the tapered portion in the nozzle of the present invention was set to 7 ° 30 '.

TABLE 1

In this course, it can be seen that the collision force when using the nozzle of the present invention is significantly increased compared to the collision force when using the conventional nozzle, and the specific effect of the present invention can be confirmed.

In addition, although the code | symbol is attached | subjected to the term of the claim of utility model registration for convenience in contrast with a drawing, this invention is not limited to an accompanying drawing by this writing.

Claims (2)

The internal flow path A of the descaling nozzle 1 is formed in a substantially straight line with a jet port 4 provided with a groove 5 in the radial direction at the distal end, and is formed at the fluid inlet portion of the internal flow path A. In the descaling nozzle (6) provided with a rectifying plate (6) consisting of a wing columnar body for rectifying fluid in the axial direction, a straight surface whose inner surface is an inner surface of the cylinder between the rectifying plate (6) and the jet port (4). Part B and the inner straight part B and the inner surface are smoothly continued, and the inner diameter of the inner passage A is linear from the inner diameter of the inner straight part B to the inlet diameter of the jet port 4. Degradation nozzle, characterized in that the inner surface tapered portion (C) is provided with an inner surface is a gentle slope to reduce the diameter gradually. The nozzle for removing scale according to claim 1, wherein an inclination angle of the inner surface of the tapered portion of the inner tapered portion (C) is 5 ° to 15 °.