KR20130045449A - An apparatus for eliminating the solidifying of inner piping - Google Patents

Abstract

PURPOSE: A device for removing coagulation inside a pipe is provided to remove by converting the coagulation of a pickling agent through an effect of steam and water, using physical and chemical properties of the pickling agent. CONSTITUTION: A device for removing coagulation inside a pipe comprises a supply unit(100) and a removing unit(200). A flexible spring tube hose(110) which sprays steam and water is wrapped to the supply unit. The removing unit is fixed to a transfer pipe. The removing unit guides the front end portion of the flexible spring tube hose inside the transfer pipe and removes the coagulation coagulated inside the transfer pipe.

Description

{AN APPARATUS FOR ELIMINATING THE SOLIDIFYING OF INNER PIPING}

The present invention relates to an apparatus for removing coagulum in a pipe, and more particularly, to remove and remove a pickling liquid coagulum, which is solidified inside the transfer pipe for supplying a pickling liquid used in a pickling process, into a liquid by the action of steam and water. It relates to a pipe internal coagulation material removal device.

In order to remove impurities on the surface of the strip generated during cold rolling of the STS STRIP, an APF (Annealing, Pickling, Finishing) pickling process is performed.

The APF pickling process consists of an APF (Annealing, Pickling, Finishing) acid prep tank containing a certain concentration of pickling solution, and a pair of positive and negative electrodes of 6 pairs (12 in total) and 5 pairs of top and bottom pairs The negative electrode regions in which ten negative electrode rods are arranged in parallel are alternately arranged. Therefore, surface treatment is performed by electrolytic action while passing a stainless strip to be surface-treated into a space between the upper and lower electrode rods of the positive electrode region and the negative electrode region to which power is applied.

The APF (Annealing, Pickling, Finishing) pickling process can be divided into neutral salt process, sulfuric acid process, nitric acid process, and mixed acid process.

The neutral salt process in the pickling process is a pretreatment process of the pickling process, and is a process for increasing efficiency when pickling a scale layer composed of iron oxide exhibited on a stainless strip (STS STRIP).

Neutral salt (Na ₂ SO ₄ ) used in the neutral salt process has a strong corrosive property, the anhydride is colorless crystals with a molecular weight of 142.02, specific gravity 2.698, dissolved in 100g of water 5g at 0 ℃, 42g at 100 ℃, Insoluble in alcohol. In addition, when left in humid air, it absorbs moisture and turns into a pentahydrate. The pentahydrate Na ₂ SO ₄ .10H ₂ O has a specific gravity of 1.464. It dries in dry air and becomes anhydride. The neutral salt melts and melts in crystal water when heated to 32.4 ° C, and becomes anhydride when heated to 100 ° C.

Neutral salts (Na ₂ SO ₄ ) on the other hand has a property that easily coagulates at room temperature. Especially in winter, the phenomenon of coagulation due to temperature drop occurs a lot.

Therefore, the transfer pipe for flowing the neutral salt often has a problem that the neutral salt is solidified inside the pipe, especially in winter, so that the coagulation blocks the transfer pipe so that the neutral salt cannot be smoothly supplied to the pickling operation.

The existing methods of penetrating coagulated neutral salts can be divided into three categories.

The first is to remove the entire transfer pipe and replace it with a new one. The second is to melt the neutral salt coagulum inside the transfer pipe by heating the outside of the transfer pipe with steam, and the third is to give a direct impact to the neutral salt. It was a way to throw it away.

In the field, when the transfer pipe is clogged by the solidification of neutral salt, the third method is easy to damage the pipe, and the first method uses the second method because it requires excessive time and cost.

However, the second method is not only excessive work time, but also a safety accident may occur because the transport pipe is generally installed in the air.

On the other hand, conventionally, in order to remove the deposits attached to the gas pipes, etc., a method of physically directly removing the deposits by introducing a brush or impeller into the gas pipes has been used. Such a method is specifically known in "A foreign substance removal apparatus in a gas piping (Registration Utility Model Publication No. 20-0171125)" and "A foreign substance removal apparatus in a seal port for gas piping (Registration Utility Model Publication No. 20-0175517)".

Utility Model Registration 20-0171125 (1999. 12. 02) Utility Model Registration 20-0175517 (Jan. 2000, 2000)

The present invention provides an internal coagulation removal apparatus for pipes that can effectively remove the pickling liquid coagulum without damaging the transfer pipe.

In particular, the present invention provides an apparatus for removing a coagulum in a pipe which can convert and remove a coagulant of a pickling liquid into a liquid by the action of steam and water using the physical and chemical properties of the pickling liquid.

Apparatus for removing the coagulum inside the pipe according to an embodiment of the present invention is a device for removing the coagulum coagulated in the transfer pipe in which the pickling liquid flows, steam and water, the bellows hose for supplying and spraying the steam and water A supply unit wound and provided; And a removal unit connected to the transfer pipe and fixed to remove the coagulum solidified in the transfer pipe by guiding the tip of the jar hose into the transfer pipe.

The supply unit is provided with a movable body provided with a wheel on the bottom; A bellows reel mounted to the movable body, the bellows hose being wound, and having a reel joint communicating with a rear end of the bellows hose; A steam supply line to which steam is supplied to one end and a water supply line to which water is supplied are connected, and the other end includes a main supply line connected to a reel joint of the bellows reel.

The supply unit is installed in the steam supply line and a steam valve for controlling the supply of steam; A water valve installed at the water supply line to control water supply; And an operation unit configured to operate by controlling the operation of the steam valve and the water valve and the drawing operation of the bellows hose.

The bellows hose has a locking groove formed on the outer circumferential surface at equal intervals along the longitudinal direction, the removal unit is connected to the conveying pipe; An installation ring installed and fixed around the connection pipe; A sprocket base extending on an upper portion of the installation ring; A pair of inlet sprockets installed on the sprocket base so as to be spaced apart from each other, and the bellows hose is inserted therebetween and engaged with the locking groove of the bellows hose; A motor for driving any one of the pair of incoming sprockets; And a guide tube installed to penetrate the connection pipe in the lower region of the pair of inlet sprockets to guide the inlet of the bellows hose.

And a counter installed to interlock with any one rotation of the pair of incoming sprockets to count the number of revolutions of the incoming sprocket.

The guide pipe has one side exposed to the upper portion of the connecting pipe so that the bellows hose is drawn in, and the other side is bent in the same direction as the lengthwise direction of the connecting pipe in the inside of the connecting pipe, and the bellows hose is drawn out at the end thereof. It is characterized by.

The connection pipe is characterized in that the discharge line for discharging the steam and water supplied to the connection pipe and the transfer pipe and the coagulum removed from the transfer pipe through the bellows hose is formed in the downward direction.

According to the embodiments of the present invention, in a stainless steel cold rolling mill of a steel mill, the solidified product solidified inside the transfer pipe of pickling liquid such as neutral salt is mixed with steam or water or sprayed alone to minimize the damage of the transfer pipe. Water can be removed effectively.

In addition, the present invention by spraying high-pressure water with steam to drop or melt the coagulum in the transfer pipe by the heat of steam, and then by the impact of high-pressure water to quickly remove the coagulum coagulation can greatly reduce the work productivity Can be improved.

1 is a view showing an internal coagulation removal device in a pipe according to an embodiment of the present invention,
2 and 3 is a view showing the main portion of the removal unit according to an embodiment of the present invention,
4 is a view showing a bellows hose which is a main part of an internal coagulation removing device in a pipe according to an embodiment of the present invention;
5 is a view showing a state in which a bellows hose and a removal unit are connected in one embodiment of the present invention;
6 is a view showing a state of use of the internal coagulation removal apparatus in the pipe according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It will be apparent to those skilled in the art that the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, It is provided to let you know. Wherein like reference numerals refer to like elements throughout.

First, the present invention relates to an apparatus for removing coagulated substances in a pipe, which is a device for removing pickled liquid coagulants generated by various factors in a transfer pipe for transferring various pickling liquids in a pickling process of a stainless strip. In the examples, neutral salts (Na ₂ SO ₄ ) are used as the pickling solution. Of course, the present invention is not limited to the removal of the neutral salt coagulant, but may be applied to the removal of the coagulum of various pickling liquids that can be dissolved by removing the coagulum by the action of steam and water.

1 is a view showing the internal coagulation removal apparatus in the pipe according to an embodiment of the present invention, Figures 2 and 3 is a view showing the main portion of the removal unit according to an embodiment of the present invention, Figure 4 is the present invention 5 is a view showing a bellows hose which is a main part of an internal coagulation removing device according to an embodiment of the present invention, and FIG. 5 is a view illustrating a state in which a bellows hose and a removing unit are connected in an embodiment of the present invention, and FIG. 2 is a view illustrating a state of use of the apparatus for removing solids inside a pipe according to an embodiment of the present invention.

As shown in the figure is a device for removing the coagulation inside the pipe according to an embodiment of the present invention as a device for removing the coagulum solidified in the transfer pipe 10 through which the pickling liquid flows, steam and water, A supply unit 100 in which a bellows hose 110 to be supplied and sprayed is wound and provided; A removal unit connected to and fixed to the conveying pipe 10 and removing the coagulated material inside the conveying pipe 10 by introducing the tip of the bellows hose 110 into the conveying pipe 10 while being guided therein; 200).

The supply unit 100 is a unit for receiving steam and water supplied into the transfer pipe 10, individually or mixed, and supplying the bellows hose 110 to neutral coagulum in the transfer pipe 10. It is provided to be movable so that it can be easily moved to the adjacent position of the generated part.

The supply unit 100 includes a movable body 120 provided to be movable in a state where other components are mounted, a bellows reel 130 in which the bellows hose 110 is wound, and steam into the bellows reel 130. It includes a main supply line 160 for supplying water.

The moving body 120 is provided with a wheel 121 on the lower surface, a means that is provided with a handle 122 that can be mounted by the operator, for example, a cart can be used.

The bellows reel 130 is mounted on the movable body 120 and is a means for winding the bellows hose 110. The bellows reel 130 communicates with a rear end of the bellows hose 110. Is provided.

The bellows hose 110 has a nozzle tip 111 is attached to the front end to inject steam and water as shown in Figure 4, the nozzle tip 111 is a plurality of injection holes (111a) in which steam and water is injected Is formed. At this time, four injection holes 111a are formed at equal intervals on the side, and are also formed in the front direction to evenly spray steam and water in the front and in all directions.

On the other hand, the bellows hose 110 has a locking groove (110a) is formed at equal intervals along the longitudinal direction on the outer peripheral surface. At this time, the bellows hose 110 is made of steel (steel) material so as not to corrode to the neutral salt, and when wound into the conveying pipe 10 while being wound in the bellows reel 130 to the extent that can enter in a straight line It is desirable to be made flexible.

The main supply line 160 is formed on the bellows reel 130 by receiving steam and water from a steam supply means (not shown) and a water supply means (not shown) provided separately from the supply unit 100. It is connected to the bellows hose 110 via a reel joint 131.

The main supply line 160 may be provided with a thermometer 162 and a pressure gauge 163 for measuring the temperature and pressure of steam and water.

In addition, the main supply line 160 has a steam supply line 140 to which steam is supplied to one end and a water supply line 150 to which high pressure water is supplied through the three-way valve 161. At this time, the steam supply line 140 is provided with a steam valve 141 for controlling the supply of steam, the water supply line 150 is provided with a water valve 151 for controlling the supply of water.

In addition, the operation unit 170 for controlling the operation of the operation of the steam valve 141 and the water valve 151 and the pulling operation of the bellows hose 110 to the supply unit 100, preferably the moving body 120. ) Is further provided.

The operation unit 170 is provided with a plurality of switches 171, for example, a switch for manually operating the pull-in operation of the bellows hose 110, a switch for automatically operating the pull-in operation of the bellows hose 110, steam A switch for operating the operation of the valve 141, a switch for operating the operation of the water valve 151, a switch for simultaneously operating the operations of the steam valve 141 and the water valve 151 may be provided.

On the other hand, the removal unit 200 is provided separately from the supply unit 100 is directly connected to the transfer pipe 10 is formed with a neutral salt coagulant introduced the bellows hose 110 to inject steam and high pressure water As it serves to remove the neutral salt coagulum.

The removal unit 200 is provided with a connection pipe 210 connected to the transfer pipe 10, the mounting ring 220 is mounted around the connection pipe 210 to be fixed. In addition, the sprocket base 230 is extended to the upper portion of the installation ring 220 is provided. Thus, the sprocket base 230 is provided with a pair of inlet sprockets 240 for directing the bellows hose 110 directly into the connection pipe 210. Then, the motor 250 for driving any one of the pair of incoming sprockets 240 and the other of the pair of incoming sprockets 240 are installed to interlock with the rotation of the incoming sprockets 240. A counter 270 that counts the numbers.

The connection pipe 210 is a pipe having a diameter corresponding to the transfer pipe 10 while one side is sealed and the other side is opened, and the other side of the connection pipe 210 is connected to communicate with the transfer pipe 10. do.

At this time, the connection pipe 210 is provided so as to penetrate the connection pipe 210 in the lower region of the pair of the incoming sprocket 240 is provided with a guide pipe 260 for guiding the introduction of the bellows hose 110. do.

The guide pipe 260 is a pipe having a larger diameter than the diameter of the bellows hose 110, one side of which is exposed to the upper portion of the connection pipe 210, and the bellows hose 110 is inserted therein, and the other side is connected to the pipe. The bellows hose 110 may be drawn out of the pipe 210 in the same direction as the longitudinal direction of the connection pipe 210 to the end thereof.

The connection pipe 210 discharges steam and water supplied to the connection pipe 210 and the transfer pipe 10 through the bellows hose 110 and the coagulum removed from the transfer pipe 10. The discharge line 211 is formed in the downward direction. At this time, the discharge line 211 is provided with a discharge valve 212 for opening and closing the discharge line 211.

The installation ring 220 is a means for installing the sprocket base 230 in the connection pipe 210, is provided to facilitate the installation in the connection pipe 210 by separating the body into two. The installation ring 220 is not limited to the present embodiment but may be changed to various configurations that can be installed to the sprocket base 230 to the connection pipe 210.

The sprocket base 230 is a means that is installed to extend from the upper portion of the mounting ring 220 to the upper region of the position where the guide tube 260 is formed, the pair of incoming sprockets 240 is rotatably installed do.

The pair of incoming sprockets 240 are spaced apart from each other at intervals corresponding to the diameter of the bellows hose 110 and are installed on the sprocket base 230. Thus, the bellows hose 110 is inserted therebetween so that the bellows hose 110 is engaged with the catching groove 110a of the bellows hose 110 so that any one of the pair of incoming sprockets 240 is driven so that the bellows hose 110 is driven. ) Is introduced into the guide tube 260.

Thus, the sprocket base 230 is provided with a motor 250 for driving any one of the incoming sprocket 240. The pair of inlet sprockets 240 is a second inlet sprocket which is rotated in conjunction with the first inlet sprocket 240a and the first inlet sprocket 240a driven by the motor 250 for convenience of description. It will be described separately by 240b.

An interlocking sprocket 253 connected to the drive shaft 251 connected to the drive shaft of the motor 250 and the timing chain 252 to the first shaft 241a supporting the rotation of the first incoming sprocket 240a. ) Is provided. Thus, when the driving sprocket 251 is rotated by the driving of the motor 250, the interlocking sprocket 253 is rotated in association with the driving sprocket 251 and the first sprocket is rotated by the rotation of the interlocking sprocket 253. The first shaft 241a and the first incoming sprocket 240a are integrally rotated. When the first inlet sprocket 240a is rotated as described above, the bellows hose 110 engaged with the first inlet sprocket 240a is introduced into the guide tube 260.

On the other hand, a driving pulley 271 is installed in the second shaft 241b that supports the rotation of the second incoming sprocket 240b so as to be integrally rotated, and the driving pulley 271 is driven through a timing belt 272. It is connected to the interlocking pulley 273 installed in the counter 270. Thus, when the bellows hose 110 is drawn into the guide tube 260, when the second drawing sprocket 240b is rotated to rotate the driving pulley 271, the linkage interlocked with the driving pulley 271. The pulley 273 is rotated, and the counter 270 may count the rotational speed of the linkage pulley 273 to obtain a pull length value of the bellows hose 110.

It describes the state of use of the internal coagulation material removing apparatus according to an embodiment of the present invention configured as described above.

First, when it is confirmed that the neutral salt is solidified due to a decrease in the ambient temperature in the transfer pipe 10 for transferring the neutral salt in the steelworks STS pickling facility or the transfer pipe 10 for a long time, the supply of the device is supplied. After moving the unit 100 to the periphery thereof, the flange 11 connecting the transfer pipe 10 is disassembled at a position closest to the position where the neutral salt coagulum 1 is formed in the transfer pipe 10. And connected to the removal unit 200 of the apparatus as shown in Figure 6 to the transport pipe 10 is a part separated.

When the connection pipe 210 is connected to the transfer pipe 10, the bellows hose 110 is introduced between the first inlet sprocket 240a and the second inlet sprocket 240b so that the first inlet sprocket 240a and the second inlet sprocket are connected. An outer circumferential portion of the 240b, that is, the engaging groove 110a of the bellows hose 110 is engaged with the teeth of the incoming sprocket 240.

In this state, the motor 250 is operated by pressing a switch for manually manipulating the pulling operation of the bellows hose 110 among the switches 171 provided in the operation unit 170. Then, as the driving sprocket 251 is rotated by the driving of the motor 250, the first incoming sprocket 240a is rotated in association with the timing chain 252. Accordingly, the first inlet sprocket 240a draws the bellows hose 110 into the guide tube 260, and the nozzle tip 111 provided at the front end of the bellows hose 110 is driven by the continuous driving of the motor 250. The guide pipe 260 is guided to the position where the neutral salt coagulum 1 is formed in the transfer pipe 10. At this time, when the position where the neutral salt coagulum 1 is formed and the pulling length of the bellows hose 110 is known to be relatively accurate, the bellows hose 110 may be drawn in an automatic mode, in which case the rotation of the second pulling sprocket 240b is performed. The inlet length information of the bellows hose 110 is used by the counter 270 that counts the numbers.

On the other hand, when the nozzle tip 111 of the bellows hose 110 enters the position where the neutral salt coagulum 1 is formed, the bellows hose is pressed by pressing a switch that controls the supply of steam among the switches 171 provided on the operation unit 170. Steam is supplied to (110). Then, steam is injected through the nozzle tip 111 of the bellows hose 110, and the neutral salt coagulum 1 is melted by the heat. At this time, the discharge valve 212 is opened so that the neutral salt liquid 2 in which the neutral salt coagulum 1 is melted is discharged through the discharge line 211 of the connection pipe 210.

When the neutral salt solution 2 flows down to the discharge line 211, the high pressure water is supplied to the bellows hose 110 by pressing a switch controlling the supply of water among the switches 171 provided on the operation unit 170. Then, the neutral salt coagulum 1 can be cleanly removed from the transfer pipe 10 while the high pressure water is applied to the neutral salt coagulum 1 which is already changed into the liquid state or changed into the liquid state by the heat of steam. .

In this case, steam and water may be sequentially sprayed by the operation of the switch 171, or steam and water may be sprayed simultaneously.

The neutral salt liquid 2 dropped from the transfer pipe 10 by the steam and the high pressure water is discharge line 211 of the connection pipe 210 together with the steam and the high pressure water supplied into the transfer pipe 10. Through it is discharged to the outside of the transport pipe 10 is removed.

Although the present invention has been described with reference to the accompanying drawings and the preferred embodiments described above, the present invention is not limited thereto but is limited by the following claims. Accordingly, those skilled in the art will appreciate that various modifications and changes may be made thereto without departing from the spirit of the following claims.

10: transfer pipe 100: supply unit
110: bellows hose 111: nozzle tip
120: moving body 130: bellows reel
131: reel joint 140: steam supply line
150: water supply line 160: main supply line
170: operation unit 171: switch
200: removal unit 210: connection piping
211: discharge line 220: mounting ring
230: sprocket base 240: incoming sprocket
250: motor 260: guide tube
270: counter

Claims (7)

A device for removing coagulated solids in steam and water inside a transfer pipe through which pickling liquid flows.
A supply unit having a bellows hose wound and supplied with the steam and water;
And a removal unit connected to and fixed to the conveying pipe and removing the coagulated material in the conveying pipe by drawing a leading end of the jar hose into the conveying pipe.
The method of claim 1, wherein the supply unit
A movable body provided with a wheel at a lower surface thereof to be movable;
A bellows reel mounted to the movable body, the bellows hose being wound, and having a reel joint communicating with a rear end of the bellows hose;
And a main supply line connected to a steam supply line supplying steam to one end and a water supply line supplying water, and the other end to a reel joint of the bellows reel.
The method of claim 2, wherein the supply unit
A steam valve installed at the steam supply line to control supply of steam;
A water valve installed at the water supply line to control water supply;
And a control unit for operating and controlling the operation of the steam valve and the water valve and the pulling operation of the bellows hose.
The method according to claim 1,
The bellows hose is formed with a locking groove on the outer peripheral surface at equal intervals along the longitudinal direction,
The removal unit is
A connection pipe connected to the transfer pipe;
An installation ring installed and fixed around the connection pipe;
A sprocket base extending on an upper portion of the installation ring;
A pair of inlet sprockets installed on the sprocket base so as to be spaced apart from each other, and the bellows hose is inserted therebetween and engaged with the locking groove of the bellows hose;
A motor for driving any one of the pair of incoming sprockets;
And a guide tube installed to penetrate the connection pipe in the lower region of the pair of inlet sprockets to guide the inlet of the bellows hose.
The method of claim 4,
And a counter installed to interlock with any one rotation of the pair of incoming sprockets to count the number of revolutions of the incoming sprocket.
The method of claim 4,
The guide pipe has one side exposed to the upper portion of the connecting pipe so that the bellows hose is drawn in, and the other side is bent in the same direction as the lengthwise direction of the connecting pipe in the inside of the connecting pipe, and the bellows hose is drawn out at the end thereof. Apparatus for removing coagulation inside the pipe, characterized in that.
The method of claim 4,
The connection pipe is removed through the bellows hose, the discharge line for discharging the steam and water supplied to the connection pipe and the transfer pipe and the coagulum removed from the transfer pipe is formed in the downward direction of the internal pipe removal Device.

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