KR100993260B1 - Sedimentation prevention apparatus of liquid spray nozzle using magnet - Google Patents

Abstract

The present invention relates to an apparatus for preventing deposition of a solution injection nozzle, the apparatus configured to prevent deposition of a solution injection nozzle for supplying and spraying a solution from a header, wherein the header 10 and the solution injection nozzle 50 are connected to each other. A flexible pipe 56 made of a flexible material, a filter 64 mounted on the flexible pipe 56 to filter foreign substances contained in the solution supplied to the flexible pipe 56, and the filter 64. And a driving magnet (24) fixed to the driving magnet (24) installed to apply magnetic force to the driven magnet (66) while moving along a predetermined path inside the header (10). According to this, the filter provided to filter out the foreign matter contained in the solution is shaken by a magnet, thereby having an excellent effect of preventing the solution injection nozzle from clogging due to the deposition of the foreign matter.

Nozzle, immersion, magnet, filter, spring

Description

Sedimentation prevention apparatus of liquid spray nozzle using magnet}

1 is a schematic configuration diagram showing a carousel type radial continuous electroplating installation of a steel mill as an example of use of a solution jet nozzle;

Figure 2 is a perspective view showing a typical solution injection nozzle device;

Figure 3 is a cross-sectional configuration view showing the whole solution spraying device equipped with a deposition preventing device of the solution spray nozzle using a magnet according to the present invention.

4 is a right side view of FIG. 3;

5 is a cross-sectional detail view of FIG. 3;

6 is an explanatory view of the operation of the present invention.

[Description of Reference Numerals]

10: header 20: axis of rotation

22: spring 24: driving magnet

40: rotation axis rotation means 42: pinion

44: rack 46: cylinder

50: solution injection nozzle 56: expansion tube

64: filter 66: driven magnet

The present invention relates to a device for preventing deposition of a solution injection nozzle, and more particularly, a filter provided to filter out a foreign matter contained in a solution is prevented from being clogged by the deposition of a foreign matter by the shaking of a magnet. The present invention relates to a device for preventing deposition of a solution injection nozzle using a magnet.

In general, a solution spray nozzle configured to spray a solution is widely used in various places of industrial equipment. For example, in a carousel type radial type continuous electroplating facility of a steel mill, plating is performed through a deflector roll 110 as shown in FIG. Solution spray nozzle configured to spray the solution on the surface of the steel sheet (S) exiting the plating tank 120 after the plated through the surface of the steel sheet (S) entering the bath 120 and the conductive roll 130 The device 140 is installed.

A more detailed structure of the solution injection nozzle device 140 is as shown in Figure 2, which is a header 142 for receiving the solution, and is mounted on the header 142 to spray the solution on the steel sheet (S) A nozzle hole 144a, which is a passage through which a solution is injected to the outside, is formed at the tip of the injection nozzle 144.

Here, the main function of the solution injection nozzle device 140 is to spray a clean solution on the surface of the steel sheet (S) to prevent drying of the steel sheet (S) and at the same time to keep the surface of the steel sheet (S) clean In order to obtain a uniform surface quality with respect to the width direction of the steel sheet S, a solution of the same flow rate is sprayed from each of the injection nozzles 144 spaced apart from each other along the length direction of the header 142 by the steel sheet S The spray nozzle 144 should be set so that the spray of the solution is uniform in the width direction of the nozzle. Also, it is always observed whether foreign matter is deposited and blocked in the nozzle hole 144a of the spray nozzle 144. It is very important.

In the related art, when the injection nozzle 144 of the solution injection nozzle device 140 is blocked by the foreign matter 146, a worker directly disassembles the solution injection nozzle device 140 to remove the foreign matter 146. Bar, this is a problem that the solution injection is not properly performed through the solution injection nozzle unit 140 during operation of the equipment to lower the surface quality of the steel sheet (S), and the working time and workforce for disassembly and cleaning of the device is excessive It was to have a problem such as to reduce the labor productivity is put into.

The present invention is to solve the above-mentioned conventional problems, to provide a device for preventing deposition of a solution injection nozzle using a magnet, which is capable of preventing foreign matter contained in the solution from being deposited on the injection nozzle to block the solution injection passage. Has its purpose.

As a technical configuration for achieving the above object, the present invention, in the device configured to prevent the deposition of the solution injection nozzle for supplying and spraying the solution in the header, connecting the header and the solution injection nozzle and the material of the stretchable material A flexible tube consisting of: a filter mounted on the flexible tube to filter foreign substances contained in the solution supplied to the flexible tube, a driven magnet fixed to the filter, and moved along a predetermined path inside the header. By providing a device for preventing deposition of a solution injection nozzle using a magnet, characterized in that it comprises a drive magnet installed to apply a magnetic force to the driven magnet.

In addition, the present invention is characterized in that it further comprises a rotating shaft installed to enable rotation in the axial direction inside the header, a spring for connecting the drive magnet to the rotating shaft, and a rotating shaft rotating means for rotating the rotating shaft. .

The rotating shaft rotating means may include a pinion mounted to the rotating shaft, a rack engaged with the pinion, and a cylinder for moving the rack along a predetermined path.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is a cross-sectional configuration view showing a solution spraying device equipped with a deposition preventing device for the solution spray nozzle using a magnet according to the present invention as a whole, a long header 10 in the form of a pipe, the header 10 ) Is connected to receive the solution through the solution supply pipe (12).

In addition, the inside of the header 10 is provided with a rotating shaft 20 having a long length, the rotating shaft 20 is arranged to be parallel to the header 10 so that both ends of both ends of the header 10 The caps 30A and 30B are installed to be sealed to enable rotation in the axial direction, respectively, and the caps 30A and 30B are mounted to maintain the airtightness in the header 10 via the gasket 32. do.

In addition, one end of the rotating shaft 20 extends through the one side cap (30B) to the outside, the end of the rotating shaft 20 extended to the outside is connected to the rotating shaft rotating means is provided with a rotational driving force.

The rotating shaft rotating means 40 may be configured in a variety of forms, as an example pinion 42 is fixed to the rotating shaft 20, as shown in more detail in Figure 4, the pinion 42 The rack 44 is engaged and mounted, and the rack 44 is connected to be moved in the longitudinal direction by the cylinder 46 mounted on the header 10 so that the cylinder 46 is driven to move forward and backward. 42 is rotated to have a structure in which the rotating shaft 20 is rotated.

In addition, the injection nozzle 50 is mounted to the header 10, and the injection nozzle 50 is disposed at several locations apart from each other by a predetermined interval along the longitudinal direction of the header 10, and the injection nozzle 50. A more detailed structure of the will be described with reference to FIG.

The injection nozzle 50 has a nozzle housing 52 of a single tube shape, the nozzle housing 52 is fixed to the through-hole 14 formed at one end of the header 10 to the solution from the header 10 Is connected to receive the nozzle body, and the other end of the nozzle housing 52 is equipped with a nozzle body 54 having a spray hole 54a for injecting a solution.

In addition, one end of the expansion tube 56 is fixed to the inner end of the header 10 of the nozzle body 54, and the expansion tube 56 is configured to have a flexible material. It has a stretch function with respect to the direction. At this time, a separate connecting pipe 55 in the form of a single pipe may be installed between the nozzle body 54 and the flexible pipe 56.

The other end of the expansion pipe 56 is equipped with a filter means 60 for filtering only the foreign matter contained in the solution of the header 10 and then supplying only the pure solution toward the nozzle body 54, the filter means 60 ) Is formed in the form of a single pipe, one end is fixed to the other end of the expansion pipe 56, the filter support 62, and is installed at the other end of the filter support 62 to filter foreign matter contained in the solution And a filter 64.

In addition, the filter support 62 can be maximally moved toward the nozzle body 54 by being caught by the jaw 53 formed to have a shape bent inwardly at the end of the nozzle housing 52. A stopper 63 for limiting the position of the filter 64 is provided, and a driven magnet 66 formed to have a predetermined magnetic force is fixedly installed at the central portion of the filter 64.

And, as shown in Figure 5, the drive shaft 24 is connected to the rotation shaft 20 via a spring 22, the drive magnet 24 is formed to have a predetermined magnetic force, the drive magnet The rotation path of the drive magnet 24 is set so that the driven magnet 66 can be positioned at a position slightly off the rotation path of the 24, and the driven magnet 66 and the drive magnet 24 are attracted to each other. It is arranged to apply.

Of course, any of the driven magnet 66 and the driving magnet 24 may be formed of a material that is attracted by the magnetic force without generating a magnetic force.

The operation of the present invention having the above configuration will be described.                     

The solution supplied to the header 10 through the solution supply pipe 12 is provided with foreign matter, and the foreign matter is filtered by the filter 64, and only the remaining pure solution is sprayed out through the nozzle body 54. do.

In this case, when the filter 64 is not periodically cleaned, foreign matter deposited on the filter 64 acts as a resistance factor to the flow of the solution supplied toward the nozzle body 54, thereby losing the function of the injection nozzle 50. Bar, periodically or continuously, drives cylinder 46 forward and backward.

When the cylinder 46 is driven forward and backward, the pinion 42 installed in engagement with the rack 44 is rotated while the rack 44 mounted on the cylinder 46 is moved forward and backward, thus rotating shaft 20 This is driven to rotate.

When the rotating shaft 20 is rotated, the driving magnet 24 installed on the rotating shaft 20 via the spring 22 is also rotated along a predetermined path, and the driving magnet 24 is shown in FIG. 6. As close to the driven magnet 66 as described above, the driven magnet 66 is applied with a magnetic force to move toward the driving magnet 24, and thus, the expansion tube 56 is expanded, so that the driven magnet 66 moves toward the driving magnet 24. Move as much as possible.

When the driving magnet 24 continues to rotate and moves away from the driven magnet 66, the magnetic force of the driving magnet 24 applied to the driven magnet 66 is weakened, so that the driven magnet 66 expands and contracts 56. Return to the initial state by the restoring force of), foreign matter deposited on the filter 64 is removed from the filter 64 is removed.

 As described above, according to the deposition preventing device of the solution injection nozzle using a magnet according to the present invention, the foreign matter deposited on the filter is removed while the filter installed to filter the foreign matter contained in the solution supplied to the injection nozzle fluctuates a predetermined distance. As a result, the flow rate of the solution injected through the injection nozzle has an excellent effect that can be kept constant at all times.

Claims (3)

An apparatus configured to prevent deposition of a solution injection nozzle for supplying and spraying a solution from a header, Connecting the header 10 and the solution injection nozzle 50 and the expansion pipe 56 made of a material of the expansion and contraction, A filter 64 mounted to the expansion pipe 56 to filter foreign substances contained in the solution supplied to the expansion pipe 56; A driven magnet 66 fixed to the filter 64; It includes a drive magnet 24 installed to apply a magnetic force to the driven magnet 66 while moving along a predetermined path inside the header 10, the axial rotation is possible inside the header 10 Rotating shaft 20 is installed so as to, the spring 22 for connecting the drive magnet 24 to the rotating shaft 20, and the rotating shaft rotating means 40 for rotating the rotating shaft 20, characterized in that it further comprises A device for preventing deposition of a solution jet nozzle using a magnet. delete According to claim 1, The rotary shaft rotating means 40, the pinion 42 mounted to the rotary shaft 20, the rack 44 coupled to the pinion 42 and coupled, the rack 44 A device for preventing deposition of a solution injection nozzle using a magnet, characterized in that the cylinder 46 is moved along a predetermined path.

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