KR100896566B1 - Apparatus for injecting fluid - Google Patents

Abstract

A fluid injector is provided for effectively filtering and dispersing foreign matter contained in a flowing fluid.

The fluid injector is provided with a fluid pipe flowing through the fluid frame is configured to flow the fluid; An impeller part rotatably provided in the apparatus frame to rotate by a flow of fluid; A fan rotating part associated with the impeller part and having a rotating fan; And a filter unit disposed near the fan to filter foreign substances contained in the fluid.

According to the present invention, the replacement period as a filter is significantly increased, especially when applied to the steel cooling tube, the cooling efficiency is maintained at the best state, and damage such as clogging or breakage of the injection tube is prevented, and thus the roll It prevents overheating, deformation, breakage or cracking, reduces roll and cooling tube replacement, prevents scratches on the product, and improves the productivity of the steelmaking process or reduces parts replacement time and cost. Can be.

Filters, Filtering, Spraying, Cooling Tubes, Spring Filters, Steelmaking, Rolls, Blockage, Breakage, Exchange

Description

Apparatus for injecting fluid

The present invention relates to a fluid injector, which effectively filters and disperses foreign substances contained in a flowing fluid to prevent clogging, deformation and damage of the nozzle portion due to foreign substances, and is particularly applied to a steel cooling tube for cooling rolls. The present invention relates to a fluid injector, which maintains the pressure of a roll, prevents damage to a roll, increases productivity of a work process, and reduces cost and time for replacing an associated device.

Generally, filter devices of fluids such as liquids and gases are widely applied in all fields of industry and life such as air purification, water purification, sewage treatment, and in small devices, they have a structure including a fixed filter mainly made of a nonwoven form.

These fixed filters have relatively short exchange intervals due to the accumulation of foreign matter inside, frequent replacements are required, and blockage of the filter pores affects the internal pressure and flow rate of the application.

However, in many industrial sites, even such a fixed filter is not used in its own nature, is contaminated by foreign matter contained in the fluid, the pressure and flow rate of the fluid are lowered, the quality of the product is reduced, and the process line is interrupted. As a result, productivity is low.

1 is a block diagram showing a cooling tube of a conventional steel cooling facility, Figure 2 is a block diagram showing a cooling tube of Figure 1, Figure 3 is a block diagram showing the appearance of the roll of FIG.

As shown in Fig. 1, the pair of rolling rolls 5 for feeding the casting 1 in the steelmaking roll cooling facility are in direct contact with the hot casting 1, so that the roll 5 is cooled for cooling by the coolant. Cooling tubes 10 provided with a plurality of injection nozzles 12 are provided at upper and lower portions of the upper and lower portions of the cooling tube 10.

As shown in Figure 2, the inside of the cooling pipe 10, the high-pressure cooling water for cooling the roll (5) flows into the inlet (10a), the cooling water is a piece of plastic, sand, crabal, iron powder Or foreign matter such as oxidized scale.

The spray nozzle 12 is clogged by such foreign matter, or the internal pressure increases, so that the cooling water is not injected at a normal pressure and flow rate, such as dropping (A) or breakage (B) from the welding part 11, thereby decreasing cooling efficiency. there was.

In addition, as shown in FIG. 3, foreign substances contained in the cooling water and the spray nozzles that are dropped or damaged are dropped on the rolls 5 and cracks are generated, grooves D are generated, and sufficient cooling is not performed, thereby overheating. And there was a problem that the rest of the production line inevitably occurs, such as deformation is required to replace the roll (5).

In addition, the foreign matter and the broken injection nozzle was also dropped to the casting (1) there was a problem that deteriorates the quality of the finished product, such as scratches on the outer surface of the finished product.

In addition, in order to replace the roll 5 and the cooling tube 10, the entire line is stopped, and all the related parts and devices are replaced, and the cost and time of exchanging parts are excessively increased, and the production line is stopped. There was a problem that the productivity is worse.

One aspect of the present invention is to increase the replacement cycle of the filter, thereby preventing the rest of the application device to increase the operation rate, and to reduce the replacement cost and time of the filter.

In addition, another aspect of the present invention, particularly when the fluid injector is applied to the cooling tube of the steelmaking roll to maintain the best cooling efficiency, to prevent clogging and breakage of each injection hole formed in the cooling tube, replacement operation The purpose is to increase the productivity of the steelmaking process.

Fluid injector according to the present invention is provided with a fluid pipe in which the fluid flows device frame configured to flow out; An impeller part rotatably provided in the apparatus frame to rotate by a flow of fluid; A fan rotating part associated with the impeller part and having a rotating fan; And a filter unit disposed near the fan to filter foreign substances contained in the fluid.

The filter unit preferably includes a spring filter member made of an annular coil spring disposed near the fan.

Preferably, the spring filter member is disposed at least one or concentrically on a plane parallel to a plane crossing horizontally with respect to the rotation axis of the fan.

Preferably, the fan and the spring filter member are alternately arranged in the rotation axis direction of the fan.

The fan rotation unit preferably generates a transfer force for transferring the foreign matter in a direction opposite to the impeller portion side to disperse the filtered foreign matter.

The device frame is detachably coupled to the fluid tube, it is preferable that the injection nozzle is disposed in communication with the front.

The fluid injector according to the present invention may be disposed corresponding to the flow direction of the fluid pipe and used as the fluid filtering device.

One aspect of the present invention by trapping and dispersing foreign matter contained in the fluid by using the flow pressure of the fluid, significantly increasing the replacement cycle as a filter, especially when applied to the steel cooling tube to filter foreign matter without a separate drive source By spraying the coolant as a fluid at a pressure and a flow rate sufficient for cooling, there is an effect that can maintain the best cooling efficiency.

Another aspect of the present invention is to prevent damage, such as clogging or breakage of the injection nozzle formed in the cooling tube, thereby preventing overheating, deformation, breakage or cracking of the roll, reducing the replacement of the roll and cooling tube, production It is effective in preventing the product from scratches and increasing the productivity of the steelmaking process.

In addition, another aspect of the present invention, by disposing the injection nozzle of the cooling tube in the device frame of the fluid injector, it is possible to easily replace only the necessary parts, if necessary replacement, such as clogging of the injection hole, and to replace unnecessary parts This can reduce waste and save exchange time and costs.

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

4 is a state diagram in which the fluid injector according to the present invention is applied, FIG. 5 is a coupling diagram of the fluid injector according to the present invention, FIG. 6 is an exploded view of the fluid injector according to the present invention, and FIG. Sectional drawing of a fluid injector according to the invention.

As shown in FIG. 4, the cooling apparatus for steel rolling rolls sprays cooling water flowing into the inlet 10a by a pump (not shown) to the roll through the injection nozzle 20 to prevent overheating and deformation of the roll. Works.

The fluid injector 100 according to the present invention is installed in the cooling tube 10 of the cooling apparatus of the roll for steel rolling to collect and disperse the foreign matter contained in the cooling water introduced into the inlet 10a and drain plug 16. It is a device which collects to the side, and flows out cooling water so that the filtered cooling water may be sprayed on a rolling roll. Then, when the operator checks the drain cock 16 side of the cooling tube 10 is filled with foreign matter to open the drain nozzle 18 so that the loaded foreign matter is discharged to the outside.

5, 6 and 7, the fluid injector 100 according to the present invention is a device for filtering and injecting foreign matter contained in the cooling water of the steelmaking cooling facility in this embodiment.

The fluid injector 100 is rotatably provided in the device frame 70, which serves as a support, and the device frame 70 to generate a driving force in a counterclockwise direction about a rotation axis by the flow of the fluid ( 40) a fan rotating unit 50 including a fan 54 which is coaxially connected through the impeller unit 40 and the connecting shaft 45 and rotated by the driving force; And a filter unit 60 disposed near the fan 54 to filter foreign matter contained in the fluid.

The device frame 70 has a side opening device frame 74 and a rotating hole 70b formed at the center thereof so that the fan rotation part 50 and the filter part 60 are seated inside the device frame 70. And an upper device frame 72 coupled to the side device frame 74 through assembly holes 72a and 74b and screws 78 after the fan rotation part 50 and the filter part 60 are assembled.

In addition, a plurality of auxiliary device frame (lined with a fixing hole 76a fixed to the filter unit 60 and the other fixing hole 76b fixed to the side device frame 74 and the screw through the screw 78 ( 76 is coupled to the inside of the side device frame (74).

In this case, the side device frame 74 and the auxiliary device frame 76 may be integrally formed, and the side device frame 74 may be detachably coupled to a fluid pipe or tank through which fluid such as cooling water flows. The fluid injector 100 may be fixed and detached, and a lower part of the side apparatus frame 74 is provided with an injection nozzle 20 communicating with the front in a direction in which the fluid flows out.

The injection nozzle 20 is a component that is detachably attached to the cooling tube 10, which is a fluid tube of the steelmaking cooling facility in this embodiment, and is configured to be detachably detachable from the fluid injector 100 to facilitate exchange.

The injection nozzle 20 is connected to the flange 30 for attachment and detachment with the injection pipe 20b and the cooling pipe, the flange 30 may be included in the device frame 70, the side device frame ( The male screw thread 30b formed on the outer surface for coupling with the lower part and the cooling tube of 74) is provided inside the space and the lower inner surface in which the impeller portion 40 can be inserted, and the upper outer surface of the spray nozzle 20. And a female screw thread 30a coupled to the male screw thread 20a.

The impeller portion 40 has a shape as shown in FIG. 6, and is inserted into the internal space of the flange 30 so that the coolant flows out through the impeller portion 40 from the upper portion in the drawing to the lower portion. ) Rotates counterclockwise about the axis of rotation.

The fan rotating unit 50 is formed on the upper end of the rotary cylinder 52, the rotary cylinder 52 connected to the impeller portion 40 via the connecting shaft 45 through the female thread (50a) formed in the lower portion And radially protruded from the outer surface of the rotating shaft 52a and the rotating cylinder 52 which are inserted into the rotating hole 70b and rotated counterclockwise, so that the impeller part ( And a fan 54 for generating a feed force in an opposite direction on the 40) side.

That is, as shown in Figure 6, when the impeller portion 40 is configured to rotate counterclockwise with respect to the rotation axis by the force of the fluid flowing out to the injection nozzle 20, the cross-sectional shape of the fan 54 By having an inclined surface downward toward the right, the fan 54 is rotated counterclockwise with respect to the axis of rotation to generate a force to push the coolant upwards.

On the contrary, when the impeller 40 is configured to rotate clockwise with respect to the axis of rotation by the force of the fluid flowing out to the injection nozzle 20, the fan 54 is rotated clockwise with respect to the axis of rotation while cooling water. The cross-sectional shape of the fan 54 is configured to have an inclined surface upward toward the right side to generate a force for pushing upward.

The filter unit 60 is formed of an annular coil spring to filter foreign matter in the fluid, and the filter unit 62 and the filter member 62 through the fixing hole (76a) the side device frame ( And a connecting rod 64 fixed to 74.

The spring filter member 62 is installed close to the fan 54 and is a suitable member through which a large amount of coolant can pass while trapping foreign substances contained in the coolant.

The spring filter member 62 is disposed at least one concentrically on a plane parallel to the plane horizontally intersecting with respect to the rotation axis of the fan 54 so that there is no space for the foreign matter to escape to increase the collection efficiency of the foreign matter Or stacked arrangement.

In addition, the spring filter member 62 filters the foreign matter, and the fan 54 hits the filtered foreign matter to increase the effect of dispersing in the opposite direction of the inflow direction of the coolant, the spring filter member 62 and the fan ( 54 are alternately arranged in a stack in the direction of the rotation axis 52a of the fan 54.

At this time, the spring filter member 62 is replaceable by a filtering member such as a mesh.

The operation of the fluid injector 100 according to the present invention having such a configuration is as follows.

Figure 8a is a block diagram showing a state in which foreign matter is filtered in the fluid injector according to the present invention, Figure 8b is a block diagram showing the flow of foreign matter by the fan in the fluid injector according to the present invention.

As shown in Figs. 8A and 8B, foreign matter contained in the cooling water flowing into the injection nozzle 20 is filtered by the spring filter member 62 and trapped in the space between the spring filter member 62 or the neighboring spring filter members. do. Thereafter, the impeller portion 40 rotates counterclockwise around the rotation shaft 52a by the force of the coolant flowing into the injection nozzle 20, and thus the fan rotation portion 50 also rotates in the same direction. 54 hits the collected foreign matter, dispersing it in an upward direction opposite to the flow direction of the fluid as indicated by the arrow.

As such, the fluid injector 100 according to the present invention does not leave foreign substances filtered through the spring filter member as it is, but is dispersed by a fan and collected separately, thereby preventing damage such as clogging and breakage of the injection unit, and filtering It will significantly increase the replacement cycle and maintain sufficient cooling water pressure and flow rate to achieve sufficient cooling.

In addition, to increase the productivity by preventing damage to the associated steel rolling rolls and finished products due to debris of the foreign matter and the injection portion, and only when the replacement of the injection portion is necessary through the device equipped with the injection nozzle 20, it is easy to remove By attaching, it is possible to reduce the exchange time and cost, such as not having to replace all the related devices.

In addition, the fluid injector according to the present invention can be used as a fluid injector having a filter function by being attached to a cooling tube for cooling the steelmaking roll in this embodiment, but the fluid nozzle is a device in which the injection nozzle 20 is omitted. It is natural that the apparatus frame of the apparatus may be coupled to an inner flow path of the device, and a separate discharge tube may be provided to discharge the collected foreign matter to perform a pure filter function.

For example, by combining the device frame of the device without the injection nozzle on the inner surface of the fluid pipe arranged horizontally to place the device corresponding to the flow direction of the fluid pipe through the discharge pipe connected separately to the device in the gravity direction The filtered foreign matters are collected separately, and the fluid can be used as a fluid filtering device which is discharged to the impeller side of the device and discharged to the other end of the fluid pipe.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto and is intended by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

1 is a block diagram showing a cooling tube of a conventional steel cooling facility.

2 is a block diagram showing a cooling tube of FIG.

Figure 3 is a block diagram showing the appearance of the roll of Figure 1;

Figure 4 is a state of use in which the fluid injector according to the present invention is applied.

5 is a coupling of the fluid injector according to the present invention.

6 is an exploded view of a fluid injector according to the present invention.

7 is a cross-sectional view of a fluid injector according to the present invention.

Figure 8a is a block diagram showing a state in which foreign matter is filtered in the fluid injector according to the present invention.

Figure 8b is a block diagram showing the flow of foreign matter by the fan in the fluid injector according to the present invention.

<Explanation of symbols for the main parts of the drawings>

1: casting 5: roll

10: cooling tube 20: injection nozzle

30: flange 40: impeller part

50: fan rotating part 52: rotating cylinder

54: fan 60: filter unit

62: spring filter member 70: device frame

Claims (7)

An apparatus frame configured to flow the fluid while being provided in the fluid pipe through which the fluid flows; An impeller part rotatably provided in the apparatus frame to rotate by a flow of fluid; A fan rotating part associated with the impeller part and having a rotating fan; And A filter unit disposed near the fan to filter foreign substances contained in the fluid; Fluid injector configured to include. The method of claim 1, And the filter part comprises a spring filter member comprising an annular coil spring disposed near the fan. The method of claim 2, The spring filter member is one or more fluid injection device, characterized in that arranged in one or more concentric circles on a plane parallel to the plane parallel to the horizontal axis of rotation of the fan. The method of claim 3, The fan and the spring filter member is a plurality of fluid injector, characterized in that arranged alternately in the longitudinal direction of the rotation axis of the fan. The method of claim 1, The fan rotating unit is a fluid injection device, characterized in that for generating a conveying force for transferring the foreign matter in a direction opposite to the impeller portion side to disperse the filtered foreign matter. The method of claim 1, The device frame is detachably coupled to the fluid pipe, the fluid injection device, characterized in that the injection nozzle is disposed in communication with the front. The method according to any one of claims 1 to 5, Fluid injection device, characterized in that the device is disposed corresponding to the flow direction of the fluid pipe used as a fluid filtering device.

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