KR101442926B1 - Nozzle with adjustable injection nozzle - Google Patents

Abstract

A nozzle capable of adjusting the nozzle is introduced.
To this end, the present invention provides a liquid ejecting apparatus including a nozzle header, a linear jet hole formed in the nozzle header so that a gas or liquid is jetted in a straight line, a diagonal jet hole formed on both sides of the linear jet hole, A hollow pipe having a first screw thread formed in the inner longitudinal direction of the header and having a second screw thread formed on the outer circumferential surface thereof so as to move along the first screw thread, A first sensor for receiving a signal of a rotational speed set by an operator is coupled to one side of the motor and a control unit for controlling a signal of the first sensor is provided, And the pipe selectively opens and closes the diagonal jet holes when the pipe moves back and forth inside the nozzle header.

Description

NOZZLE WITH ADJUSTABLE INJECTION NOZZLE}

The present invention relates to a nozzle capable of adjusting a jetting port, more specifically, a plurality of jetting holes are provided on an outer circumferential surface of a nozzle header through which gas or liquid flows, and selectively opening / closing the jetting holes, Or to a narrow range of nozzles.

Conventional injection nozzles have been designed so that the number of injection ports is designed to be one or more per nozzle specification in order to jet a wide angle (jet within a wide angular range) at a narrow angle (jetting within a small angle range).

In addition, when the angle of the nozzle is already determined, the operator adjusts the spray angle by a separate operation. In this case, when two or more nozzles were used, the nozzle was mainly used for wide angle, rather than one.

In addition, in the conventional injection nozzles, when the injection angle is determined in one direction, the sealing material is sealed using a sealing material or the like so as to prevent the leakage of the joint portion, Many problems have been pointed out, and in order to inject gas and liquid at various angles, it is necessary to install the respective blowing portions for each direction in the main body portion after the designing, so that there is a troublesome problem due to repetition of the work several times.

On the other hand, it is difficult to control the injection angle of the liquid or gas injected from the nozzle compared to the nozzle having one or two nozzles. In the case where the injection angle adjustment amount is wide, it is difficult to control the nozzle.

In general, a plurality of injection nozzles are coupled to a general nozzle header, and the angle of the injection nozzle is rotated in the upward and downward directions to adjust the angle of air or fluid ejected from the nozzle. In this case, The air or fluid is injected through all the injection nozzles irrespective of the rotation of the nozzle head in the one direction or the pressure of the air or fluid flowing into the nozzle head, There have often been cases.

 In addition, even when a plurality of injection nozzles are coupled to the nozzle head, the respective injection nozzles are injected in a state in which they can not be adjusted, so that there is a jetting region overlapping each other, and a difference occurs in the jetting pressure due to the overlapping If the area to be sprayed is a strip, defects on the surface of the strip are caused, and a smudge is formed on the surface of the strip or the strip after degreasing, And the quality of the strip is deteriorated.

When the nozzle is an aspect killer device used in an electroplating facility, the spray angle of the coating solution spray nozzle installed in the solution supply header is set so as to be always constant regardless of the width of the steel plate The solution is sprayed onto the edge portion of the steel sheet so that the solution contaminates the steel portion of the conduction roll and if the solution on the steel portion is at the edge of the steel plate that has already been plated, Thereby forming scatter marks and stripes.

That is, in the case of a nozzle for jetting a gas or a liquid, a plurality of nozzles are provided, and even when the direction of the jet nozzle is fixedly mounted in a fixed direction or all the nozzle nozzles need not be used depending on the working environment And the pressure of the gas or liquid sprayed through the nozzle is small, so that the predetermined object can not be achieved.

As a result of this research, a multi-directional spray nozzle, which is a registered Korean Utility Model Bulletin No. 20-0223857 (published on Aug. 5, 1998), and a multi-directional spray gun, which is disclosed in Korean Patent Publication No. 10-2010-0037232 There is a technical idea to control the area to be sprayed in accordance with the pressure of the gas or the liquid sprayed in the multi-directional spray and the multi-directional spray with one nozzle header.

(Prior Art 1) Korean Utility Model Registration Bulletin 20-0223857 (Published Aug. 5, 1998) (Prior Art 2) Korean Patent Publication No. 10-2010-0037232 (Published Apr. 9, 2010)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a jet nozzle for jetting a jet nozzle When the pressure of the gas or liquid flowing through the nozzle header is small, the gas or liquid is injected only through the straight jetting hole. In some cases, if it is necessary to adjust the jetting area, Which is capable of adjusting an injection area of the nozzle by using a hollow pipe provided in the nozzle.

A nozzle capable of adjusting the nozzle is introduced.

To this end, the present invention provides a liquid ejecting apparatus comprising: a nozzle header; a linear jetting hole formed in the nozzle header so that a gas or liquid is jetted linearly; a diagonal jetting hole formed on both sides of the linear jetting hole, A hollow pipe having a first screw thread formed in the inner longitudinal direction of the header and having a second screw thread formed on the outer circumferential surface thereof so as to move along the first screw thread, A first sensor for receiving a signal of a rotational speed set by an operator is coupled to one side of the motor and a control unit for controlling a signal of the first sensor is provided, And the pipe selectively opens and closes the diagonal jet holes when the pipe moves back and forth inside the nozzle header.
The plurality of diagonal jet holes are provided at both sides of the linear jet hole at regular intervals, and the inclined angle between the linear jet holes is constantly increased.
A second sensor for measuring the internal pressure of the gas or liquid flowing in the hollow pipe is coupled to one side of the hollow pipe and the pressure signal is transmitted to the control unit to adjust the rotation speed of the motor .

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Using the nozzle capable of adjusting the jet nozzle of the present invention, various advantages are provided as follows.

First, there is an advantage that one nozzle header can inject gas or liquid in all ranges from narrow to wide angle.

Second, when the pressure of gas or liquid flowing in the nozzle header is small, there is an advantage that the spray angle can be adjusted.

Third, when the pressure of the gas or liquid flowing in the nozzle header is equal to or higher than the pressure set by the operator, the range can be adjusted so that the operator can spray the desired area.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.
2 is a view showing an angle formed by a straight jetting hole and a diagonal jetting hole.
3 is a state diagram showing that a region to be sprayed is changed in accordance with the movement of the pipe;
4 is a configuration diagram in which a first sensor, a second sensor, and a control section are installed.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a nozzle adjustable nozzle according to the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a general view showing the present invention. As shown in FIG. 1, the present invention mainly includes a nozzle header 100, a rectilineal injection hole 200, and a diagonal injection hole 300.

As shown in the drawing, the nozzle header 100 is supplied with a general gas or liquid, and a linear spray hole 200 is formed at the lowermost end of the nozzle header 100 so that a gas or liquid therein can be ejected in a linear direction to the outside Respectively.

A rectangular spray hole 300 is formed on both sides of the linear spray hole 200. The rectangular spray hole 300 is formed by designing the number and angle of the spray hole 300 according to the working environment and the position in which the nozzle is used All.

A gas or liquid can be injected in multiple directions in one nozzle header 100 through the linear injection hole 200 and the diagonal injection hole 300. The diagonal injection hole 300 is formed in the nozzle header 100, A plurality of spray holes are formed in the outer side in the inner space 100 to communicate with each other.

The plurality of rectangular fine holes 300 are provided at both sides of the linear injection hole 200 at regular intervals and are arranged such that the inclination angle of the rectangular fine holes 300 increases as the distance from the linear injection hole 200 increases .

However, as shown in the figure, five rectangular spray holes 300 are provided on both sides, but it is obvious that the number can be changed depending on the working environment or the place where the nozzle is used. As shown in FIG. 2, , It is preferable that the angle formed by the linear jetting hole at a constant ratio is set to be large so that gas or liquid can be injected at all angles other than the linear direction.

For example, when θ ₁ is 30 °, θ ₂ is preferably set to 60 ° θ ₃ , and 120 ° θ ₄ is set to 150 °.

1, the present invention is characterized in that a first screw thread 110 is formed in an inner longitudinal direction of a nozzle header 100 and a second screw thread 110 is formed on an outer circumferential surface of the first screw thread 110 so as to move along the first screw thread 110. [ And a hollow pipe (400) formed with threads (120).

A gas or a liquid flows through the hollow pipe 400 and the hollow pipe 400 is connected to the diagonal jet hole 300 at the time of forward and backward movement through the first screw thread 110 and the second screw thread 120 And can be selectively opened and closed.

3 (a), when the hollow pipe 400 descends to the lowermost end, a gas or a liquid is injected only through the linear spray hole 200, so that the gas or the liquid can be injected intensively into the target object 3 (b), when the hollow pipe 400 descends to the middle portion, the gas or liquid is injected into the rectilinear spray hole 200 and two rectangular spray holes 300 on both sides thereof, When the hollow pipe 400 does not descend, gas or liquid is injected through all of the injection holes.

Whether the pipe is advanced or not is determined according to the working environment. When the gas or liquid is required to be injected into the concentrated region, the hollow pipe 400 may be lowered to the lowermost position as shown in FIG. 3 (a) When the multi-directional injection is required instead of the area, the operator can move the hollow pipe 400 to a depth of about 3 (b) or 3 (c) to increase the efficiency through the nozzle.

As a result of this operation, the straight pipe 200 and the rectangular pipe 300 are opened / closed in sequence as the hollow pipe 400 is moved forward and backward, and the angle of the gas or liquid injected The hollow pipe 400 can be moved forward and backward so that the nozzle head 100 can be freely moved up to a wide angle range as well as a narrow angle.

4, the first sensor 600, the control unit 700, and the motor 500 may be mounted on the hollow pipe 400. In this case, Use automation is implemented.

As shown in the figure, a motor 500 for rotating the hollow pipe 400 is coupled to one end of the hollow pipe 400. A first sensor 600 for receiving a signal of a rotation speed set by an operator is installed at one side of the motor 500, And a control unit 700 for sending a signal to the first sensor 600 is provided around the control unit 700.

That is, since the length of the hollow pipe 400 is changed along the direction of the concentration of the gas or the liquid sprayed or the direction of the liquid, the worker can move the hollow pipe 400 to a desired depth at a constant rotation speed The first sensor 600 rotates the motor 500 so that the hollow pipe 400 having a predetermined length is rotated by the first screw thread 110 and the second screw thread 600. [ And then flows into the nozzle header 100 along the flow path 120 to inject gas or liquid.

In the present invention, a second sensor 800 capable of measuring the pressure of gas or liquid flowing in the hollow pipe 400 is installed at one side of the hollow pipe 400.

If the pressure of the gas or liquid flowing in the hollow pipe 400 is smaller than the reference pressure already set by the operator, the gas or liquid that is injected into the target object The pressure is so small that the predetermined purpose can not be achieved.

In this case, it is preferable that the gas or liquid is injected only into the rectilinear injection hole 200 and the rectilinear injection hole 300 directly on both sides of the rectilinear injection hole 200, And transmits the corresponding rotational speed to the first sensor 600 through the control unit 700 to rotate the motor 500.

In addition, the second sensor 800 and the control unit 700 perform the functions so that the injection area can be adjusted according to the pressure of gas or liquid flowing in the hollow pipe 400.

That is, when the pressure of the gas or liquid measured by the second sensor 800 is higher than the set pressure, even if the multi-directional injection is performed, the predetermined target can be achieved. In this case, It is effective to transmit the signal to the first sensor 600 in the control unit 700 and to concentrate the signal when the pressure measured by the second sensor 800 is less than the set pressure. A signal corresponding to the rotational speed of the hollow pipe 400 is transmitted to the first sensor 600 so that the hollow pipe 400 can be lowered to the lowest position.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the following claims It will be apparent to those of ordinary skill in the art.

100: nozzle header 110: first thread
120: Second thread 200: Straight line hole
300: Cross-flow sprayer 400: Pipe
500: motor 600: first sensor
700: control unit 800: second sensor

Claims (5)

A nozzle header 100;
A linear spray hole (200) formed in the nozzle header (100) so that a gas or a liquid is injected in a straight line;
A diagonal injection hole (300) formed on both sides of the linear injection hole (200) so that gas or liquid is injected into the diagonal line; And
A hollow pipe 400 having a first screw thread 110 formed in an inner longitudinal direction of the nozzle header 100 and a second screw thread 120 formed on an outer circumferential surface thereof to move along the first screw thread 110, Lt; / RTI >
A motor 500 for rotating the hollow pipe 400 is coupled to one end of the hollow pipe 400 and a first sensor for receiving a signal of a rotational speed set by an operator is installed at one side of the motor 500 And a control unit 700 for controlling the signal of the first sensor 600 is provided in the nozzle header 100. The hollow pipe 400 is connected to the inside of the nozzle header 100 by the operation of the motor 500, And selectively opens and closes the diagonal jet holes (300) when the nozzle is moved forward and backward.
The method according to claim 1,
Wherein a plurality of the obliqueness spray holes (300) are provided on both sides of the linear spray hole (200) at regular intervals, and the inclined angle with the linear spray holes (200) is constantly increased Nozzle.
delete delete The method according to claim 1,
A second sensor 800 for measuring the internal pressure of the gas or liquid flowing in the hollow pipe 400 is coupled to one side of the hollow pipe 400 and the pressure signal is transmitted to the control unit 700 And the rotational speed of the motor (500) is adjusted in comparison with the set pressure.

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