JPH03286904A - Multi-hole type spray nozzle - Google Patents

Abstract

PURPOSE:To atomize the jetted flow and provide a multi-hole type spray nozzle which is capable of mixing well with heating steam by providing many of injection holes in an injection hole arrangement wall and in another injection hole arrangement wall so as to make the sprayed water from the injection holes and the sprayed water from the other injection hole collide mutually. CONSTITUTION:The sprayed water outlet section 4 of a spray water pipe 3 is divided, and a spray nozzle hole arranging wall 5 and another spray nozzle hole arranging wall 6 are provided with a suitable angle between them so as to provide mutual communication, and sprayed water injection nozzles 7 and 8 are provided to make the sprayed water jetted out from injection holes 7 on one side and the sprayed water jetted out from injection holes 8 on the other side collide mutually. With the multi-hole type spray nozzles thus constituted the jet flows from the spray nozzles 7 on one side and the jet flows from the spray nozzles 8 collide mutually to make double collision, tripple collision or multiple collision so that the atomization of the sprayed water is provided for sure. Better mixing with the heated steam in the steam temperature reducing pipe 1 of a superheater is thereby made and it is possible to reduce uniformly the temperature of the superheated steam and its temperature control is very easy.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to a multi-hole spray nozzle that injects spray water into a superheater steam temperature reducing tube to control the steam temperature in the reducing tube. be.

[Conventional technology]

A conventional multi-hole spray nozzle of this type has, for example, a structure as shown in FIG. 6, a part of which is shown in sectional view.

In FIG. 6, 21 is a spray water pipe having a bottom;
2 is a large number of injection nozzle holes provided near the bottom, 23
24 is an arrow indicating the direction of injection water injected from the nozzle hole 22, and 24 is an arrow indicating the flow direction of superheated steam in the superheater steam temperature reducing tube (not shown).

That is, the spray water in the spray water tube 21 is radially injected from each injection hole 22.

[Problem to be solved by the invention]

However, in the conventional multi-hole spray nozzle shown in FIG. 6, as described above, the spray water in the spray water tube 21 is radially injected from each injection hole 22, but it is not directly ejected from each injection hole 22. Since the jets are only injected in a line, the jets do not collide with each other, so the jets are not atomized, and therefore,
There was a problem that better mixing with superheated steam could not be obtained.

The present invention attempts to solve these problems. That is, an object of the present invention is to provide a multi-hole spray nozzle in which the jet streams collide with each other to atomize the jet streams and achieve better mixing with superheated steam.

[Means to solve the problem]

In order to achieve the above object, the present invention puts the spray water outlet part of the spray water pipe attached to the spray nozzle holder into the superheater steam temperature attenuating tube, and the injecting nozzle hole is inserted into the attenuating tube from a plurality of injection nozzle holes. In a multi-hole spray nozzle that injects spray water into the interior, the spray water outlet portion of the spray water pipe is divided, and one of the spray nozzle hole array walls is provided at an appropriate angle so as to communicate with each other separately. and the other injection nozzle hole array wall, and the spray water is injected from the injection nozzle holes in the one injection nozzle hole array wall and the spray water is injected from the injection nozzle holes in the other injection nozzle hole array wall. A large number of the injection nozzle holes are provided on one injection nozzle hole array wall and the other injection nozzle hole array wall so that the injection nozzle holes collide with each other.

[Effect]

According to the present invention, the spray water outlet portion of the spray water pipe is divided into one injection nozzle hole array wall and the other injection nozzle hole array wall, which are provided at appropriate angles so as to communicate with each other separately. and such that the spray water injected from the injection nozzle holes in the one injection nozzle hole array wall and the spray water injected from the injection nozzle holes in the other injection nozzle hole array wall collide with each other. , since a large number of each injection nozzle hole is provided on the one injection nozzle hole arrangement wall and the other injection nozzle hole arrangement wall, the injection flow from the injection nozzle hole on the - side injection nozzle hole arrangement wall is and the jet stream from the injection nozzle hole of the other injection nozzle hole arrangement wall collide with each other in double, triple, or more times to ensure atomization of these jet streams, and the formation of atomization with the superheated steam. A good mix is made.

〔Example〕

FIG. 1 shows one embodiment of the present invention, and FIGS. 2 to 5 show only a portion thereof in an enlarged manner.

In FIG. 1, 1 is a known superheater steam temperature reducing tube, 2
3 is a spray water pipe attached to the nozzle holder 2; 4 is a spray water outlet of the spray water pipe 3;

In FIGS. 1 to 5, 5 is one of the injection nozzle hole arrangement walls, and in FIGS. 2, 3, and 5, 6 is the other injection nozzle hole arrangement pipe wall. or fifth
In the figure, 7 indicates the one injection nozzle hole arrangement! ! 5 indicates one of the injection nozzle holes provided in large numbers in FIGS. 3 and 5, and 8 indicates the other injection nozzle holes provided in large numbers in the other injection nozzle hole array wall 6, FIGS. 1 and 3. In FIG. 3, 9 is an arrow indicating the flow direction of the superheated steam in the temperature reduction tube 1, 10 is an arrow indicating the direction of the spray water jet from the one injection nozzle hole 7, and 11
is an arrow indicating the direction of the jet flow of spray water from the other jet nozzle hole 8.

That is, the spray water outlet section 4 of the spray water pipe 3 is divided and communicated with each other at an appropriate angle (this angle is shown as θ in FIG. 2, and in this embodiment, θ is 90 degrees). ), one of the injection nozzle hole array walls 5 and the other injection nozzle hole array wall 6 are provided, and the spray water injected from one of the injection nozzle holes 7 ( The re-injection nozzle holes 7 and 8 are arranged so that the spray water jetted from the other jet nozzle hole 8 (see the jet flow arrow 11 in FIG. 3) collide with each other. has been done. In other words, as shown in FIG. 5, the injection nozzle holes 7 (group) on one side and the injection nozzle holes 8 (group) on the other side are provided symmetrically with respect to the vertical line 12 indicating the center. .

In the multi-hole spray nozzle configured as shown in FIG. 1, as shown in FIG. 3, the jet flow from one jet nozzle hole 7 and the jet flow from the other jet nozzle hole 8 are By colliding with each other in double, triple, or more, atomization of these jet streams is ensured. Therefore, better mixing with the superheated steam in the superheater steam temperature reducing tube 1 is achieved, so that the temperature of the superheated steam can be reduced uniformly, and its temperature control becomes extremely easy.

It is preferable that the shapes of the injection nozzle holes 7 on one side and the injection nozzle holes 8 on the other side are round, oval, or star-shaped, and the arrangement of the injection nozzle holes 7 and 8 is as shown in FIG. It is desirable to make the jets completely symmetrical with respect to the vertical line 12 indicating the center, but even if they are not completely symmetrical, if the jets from them collide with each other, they will be slightly shifted. Good too. Further, although it is desirable that the angle θ shown in FIG. 2 be 90 degrees, the design may be changed to be smaller or larger to some extent.

〔Effect of the invention〕

As explained above, according to the present invention, the spray water outlet part of the spray water pipe is divided, and the spray nozzle hole array wall on one side and the spray nozzle hole array wall on the other side are provided at appropriate angles so as to communicate with each other separately. a nozzle hole array wall, and
Each of the injection nozzles is configured such that the spray water injected from the injection nozzle holes in the one injection nozzle hole arrangement wall and the spray water injected from the injection nozzle holes in the other injection nozzle hole arrangement wall collide with each other. Since a large number of holes are provided in each of the one injection nozzle hole arrangement wall and the other injection nozzle hole arrangement wall, the jet flow from the injection nozzle hole of the one injection nozzle hole arrangement wall and the other injection nozzle The jet streams from the injection nozzle holes in the hole array wall collide with each other in double, triple, or more times to ensure atomization of the jet streams and better mixing with the superheated steam. . Therefore, the temperature of the superheated steam can be reduced uniformly, and the temperature control becomes extremely easy.

[Brief explanation of drawings]

Fig. 1 is a cross-sectional side view showing one embodiment of the present invention, Fig. 2 is an enlarged sectional plan view taken along section line A-A in Fig. 1, and Fig. 3 is an enlarged cross-sectional view taken along section line B-B in Fig. 1. 4 is a cross-sectional side view taken along cutting line C-C in FIG. 2, and FIG.
The front view of the figure and FIG. 6 are cross-sectional plan views showing an example of the conventional technique. 1... Superheater steam temperature reducing tube, 2... Spray nozzle holder, 3... Spray water pipe, 4... Spray water outlet section,
5... One injection nozzle hole arrangement wall, 6... Other injection nozzle hole arrangement wall, 7... One injection nozzle hole, 8.
...The other injection nozzle hole, 12...Vertical line showing the center, θ...Angle formed by both injection nozzle hole arrangement walls.

Claims (1)

[Claims] 1. Put the spray water outlet of the spray water pipe attached to the spray nozzle holder into the superheater steam temperature reducing tube, and spray water into the reducing tube from a number of injection nozzle holes. In a multi-hole spray nozzle that sprays water, the spray water outlet portion of the spray water pipe is divided, and the spray nozzle hole array wall on one side and the spray nozzle on the other side are provided at appropriate angles so as to communicate with each other separately. a hole arrangement wall, and the spray water injected from the injection nozzle holes of the one injection nozzle hole arrangement wall and the spray water injected from the injection nozzle holes of the other injection nozzle hole arrangement wall are mutually A multi-hole spray nozzle, characterized in that a large number of the injection nozzle holes are provided on one injection nozzle hole array wall and the other injection nozzle hole array wall so as to collide with each other. 2. The multi-hole spray nozzle according to claim 1, wherein the angle formed by one of the injection nozzle hole array walls and the other injection nozzle hole array wall is a right angle. 3. The multi-hole spray nozzle according to claim 1 or 2, wherein the shape of the injection nozzle hole is one of a round shape, an ellipse shape, and a star shape. 4. Claim 1, wherein one injection nozzle hole group and the other injection nozzle hole group are provided symmetrically with respect to a central vertical line.
3. The porous spray nozzle according to 2 or 3.