KR20040043387A - Device for choosing shot ball in blaster - Google Patents

Abstract

PURPOSE: A device for selecting shot-balls by particle size is provided to improve descaling efficiency and protect the surface of a strip by selectively supplying the sorted shot-balls according to the thickness and kind of the strip. CONSTITUTION: A shot-ball projecting unit includes a projector(100) for projecting shot-balls into the upper and lower surfaces of a strip. A shot-ball recovery unit includes a hopper(120), a feed screw(121) installed in the hopper and moving the shot-balls, a vertical conveyor(130) connected to the hopper and moving the shot-balls vertically, a supply chute(140) connected to the upper part of the vertical conveyor and re-injecting the shot-balls into the projector, and a discharge tube(150) installed at the lower part of the supply chute. A shot-ball sorting unit(10) is installed between the supply chute and the projector, and sorts the shot-balls by particle size. An individual supply unit(20) selectively supplies the sorted shot-balls to the projector according to the thickness and kind of the strip.

Description

Device for choosing shot ball in blaster}

The present invention relates to a shot blaster for stripping scales of strips, and more particularly, to an apparatus for selecting shots by shot size of shot blasters, which is capable of projecting shots of different types of shots according to the thickness of the strips.

In general, the strip passed through the continuous annealing furnace during the production of stainless steel hot rolled coil passes through the shot blaster, which is a descaler, for peeling off the scale layer formed on the strip surface.

The shot blaster is a facility for projecting a small metal ball (hereinafter referred to as a shot ball) onto a strip surface by peeling a scale layer through a wheel that rotates at a high speed. As shown in FIG. 5, the shot blaster includes a shot thrower 100. The shot ball projecting unit and the shot ball recovery unit for recovering the projected shot ball can be largely divided, wherein the shot recovery unit is a hopper 120 which is installed at the bottom of the duct 110 of the descaler facility through which the strip 200 passes, and the hopper (120) Vertical conveyor 130, vertical conveyor 130 for vertical movement to receive the shot ball moved through the transfer screw 121 is connected to the hopper 120, the transfer screw 121 for moving the shot ball is installed inside And a chute chute 140 connected to the upper part and mounted on the vertical conveyor 130 in a strip width direction to be re-inserted into the shotball thrower, and the chute chute 140 is installed below the chute chute 140. It includes a discharge pipe 150 for supplying the group syotbol syotbol throwing.

However, the above-described conventional shot blaster has a problem in that, in the case of a thin plate, shot projection marks remain because the shot balls of the same particle size are projected regardless of the thickness of the strip.

In other words, when the thickness of the strip is thick, the scale layer is also formed thickly. For example, in the case of 400 series strips, the marks of shotballs remain sharper than other steel grades. In the case of using a short ball and having a thin thickness or 400 series, a small particle ball should be used. However, the conventional structure described above projects the same shot ball for all steel grades so that the pickling property of the strip surface is reduced in the post-process pickling bath. This results in degradation of workability and material defects of the strip due to shot marks.

Accordingly, the present invention has been made to solve the above problems, by differently selecting the particle size of the shot ball to be projected according to the thickness and steel type of the strip to obtain the effect of the scale peeling efficiency and the surface protection of the strip at the same time. It is an object of the present invention to provide a shot size selection device for shot ball blaster.

1 is a perspective view illustrating a shot blaster installed with a shot ball size selection device according to the present invention;

Figure 2 is a perspective view showing a selection device for each shot size of the shot blaster in accordance with the present invention,

Figure 3 is a perspective view of a shot blaster according to the prior art.

Explanation of symbols on the main parts of the drawings

10: filter cylinder 11: input tube

12: drive motor 13: separator

20: blocking plate 21: driving cylinder

22: connector 23: recovery tube

30: sorting box 31: sorting screen plate

32: driving cylinder

In order to achieve the above object, the shot ball blaster of the present invention is installed between a supply chute and a shot ball thrower for supplying a shot ball, and a shot separation part for separating the shot balls according to the particle size, and the separated shot ball to the thickness of the strip It further includes a separate supply for supplying the shot thrower according to the steel grade.

Therefore, only the shotball having the optimal particle size suitable for the strip can be selectively projected onto the strip.

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

1 is a perspective view illustrating a shot blaster having a shot ball size selection device according to the present invention, and FIG. 2 is a perspective view illustrating a shot ball size selection device of a shot blaster according to the present invention.

According to the above drawings, the shot blaster includes a shot projector including a thrower 100 for projecting the shot ball onto the upper and lower surfaces of the strip through a high speed wheel;

The hopper 120 is installed at the lower end of the duct of the descaler facility through which the strip passes, and the transfer screw 121 is installed inside the hopper 120 and connected to the hopper 120 to move the shotball. Supply chute for receiving the shot ball moved through the vertical conveyor 130, the vertical conveyor 130 is connected to the upper portion of the vertical conveyor 130, take the shot ball up to the shot ball thrower (100) 140 and a shot recovery unit installed below the supply chute 140 and including a discharge pipe 150 for supplying the shot ball to the shot thrower 100.

In addition, a dust collecting duct 142 connected to the suction pipe 141 is installed at one side of the supply chute 140 to collect dust and other substances such as scale in the shotball.

Here, the shot size selection device according to the present invention is a shot ball blaster of the structure described above, is installed between the supply chute 140 and the shot ball thrower 100 for supplying the shot ball shot separation for separating the shot ball by the particle size And a separate supply unit for selectively supplying the separated shot balls to the shot thrower 100 according to the thickness or steel grade of the strip.

The shot separator is provided on one side of the filter cylinder 10, the cylindrical filter having a different hole size is continuously arranged and the outer plate 14 provided on both ends of the filter cylinder 10 is supplied from the supply chute 140 Inlet pipe 11 for introducing the shot ball into the filter cylinder 10, the drive motor 12 for rotating the filter cylinder 10 is connected to the central axis of the filter cylinder 10, the filter cylinder 10 At the bottom of the) includes a separation cylinder 13 is placed for each hole size and the shot ball passing through the filter cylinder 10 is collected.

In the present embodiment, the filter cylinder 10 is arranged in series of three filters each having a different hole size, and arranged in the order of the largest filter in the filter having the smallest hole size based on the inlet pipe 11.

Therefore, the shot ball introduced into the filter cylinder 10 through the input pipe 11 is collected by the particle size is dropped to the separation tube 13 of the lower portion in order from the short ball having a small particle size.

In addition, the individual supply unit for supplying shotballs collected by particle size according to the steel grade of the strip block plate 20 is installed on the lower end of each of the separation cylinder 13, and the driving cylinder 21 for opening the block plate 20 ), Installed at the bottom of each separator (13) includes a connection pipe 22 for sending the shot ball to the distribution box 24 connected to the thrower (100).

Therefore, by opening the blocking plate 20 of the separation bin 13 containing the shot balls necessary according to the thickness or steel grade of the strip 200 and the remaining separation cylinder 13 by closing the blocking plate 20 only the shot ball It is sent to the distribution box 24 through the connecting pipe 22 is supplied to the thrower 100.

Here, the shot ball introduced into the separator (13) through the filter barrel 10 is recovered through a recovery pipe 23 installed in the separator (13), the shot ball is more than the storage capacity of the separator (13) 13) can prevent the overflow.

On the other hand, according to this embodiment further comprises a sorting unit for the first sorting and sending the shot ball between the input pipe 11 and the supply chute 140, for this purpose, the sorting unit at the top of the supply chute 140 The sorting box 30 is connected to the discharge pipe 150 and the bottom of the sorting box 30 is installed, the sorting screen plate 31 is installed diagonally across the sorting box 30, the sorting screen plate A driving cylinder 32 for vibrating the sorting screen plate 31 connected to the 31 and positioned above the screen plate 31 of the sorting box 30 to discharge the shot ball caught on the sorting screen plate 31. Recovery pipe 33 and storage box 34 for the purpose.

Accordingly, when the driving cylinder 32 is stretched and operated, the sorting screen plate 31 flows inside the sorting box 30 to transmit only a shotball of a predetermined size from the shotball introduced through the discharge pipe 150.

Hereinafter will be described the operation of the present invention.

The shotball projected onto the strip surface by the shot thrower 100 falls down the duct 110 of the descaler facility and is moved to the vertical conveyor 130 through the transfer screw 121 installed at the bottom of the vertical conveyor 130. Taken) is moved to the upper portion is collected in the supply chute 140 installed on the vertical conveyor (130).

And through the discharge pipe 150 installed in the lower supply chute 140 is first sent to the sorting box (30).

The shot ball introduced into the sorting box 30 passes through the sorting screen plate 31, and the shot ball having a larger particle size than the mesh of the screen plate 31 is filtered and only the shot ball passing through the remaining screen plate 31 is screened. The filter tube 10 is introduced through the input pipe 11 located below the plate 31.

At this time, the sorting screen plate 31 is vibrated by the expansion and contraction operation of the drive cylinder 32 to be able to quickly proceed to the sorting operation of the shot ball.

The shot ball filtered by the sorting screen plate 31 is discharged through the collecting pipe 33 installed at one side of the sorting box 30 to be stored in the storage box 34.

On the other hand, the shot ball introduced into the filter tube 10 through the input pipe 11 in turn passes through a filter having a large hole size from a small hole size, shot ball of a smaller size than the hole size passes through the filter in the lower portion It is contained in each separator 13 located.

In this case, as the filter cylinder 10 is rotated by the rotation operation of the drive motor 12, the shotball is continuously moved along the filter section of each hole size, and the shotball is rolled along the rotating filter cylinder 10. It is quickly collected by the particle size.

In other words, the separation tube 13, which is placed in order to the input pipe 11 in order to contain a small particle shot ball and a medium size shot ball shot ball of a large particle size in order.

In this state, if the shot ball to be used is determined according to the type and thickness of the strip entering the duct of the descaler facility, only the separator 13 containing the shot ball is opened in each separator 13 so that the shot ball is thrown into the thrower ( 100).

When the blocking plate 20 installed at the lower part of the separating cylinder 13 proceeds to the outside of the separating cylinder 13 according to the contraction operation of the driving cylinder, when the lower portion of the separating cylinder 13 is opened, the shot balls collected at the separating cylinder 13 are connected. It is introduced into the distribution box 24 through the pipe 22 and is supplied to each thrower 100 in this distribution box.

For example, if the thickness of the strip is 5mm thick or thicker or 300 series, the shortest particle of the shotball is 0.5mm, and for the 400 series of weak material, 0.2mm or 0.3mm depending on the strip thickness. Shotballs can be used to effectively meet the conditions of scale peeling and strip surface protection.

According to the shot ball size selection device of the shot blaster according to the present invention as described above, it is possible to select the particle size of the shot shot ball according to the type or thickness of the strip to prevent the shot marks remaining on the surface of the strip As a result, it is possible to prevent a strip processing defect due to the shot mark.

In addition, it is possible to improve the pickling property of the strip in the pickling process, which is a post process, and has an effect of improving the surface roughness of the strip after the pickling is completed.

Claims (4)

A shot ball projector including a thrower for projecting the shot ball onto the upper and lower surfaces of the strip through a high speed wheel; Hopper is installed at the bottom of the duct of the descaler facility through which the strip passes, the transfer screw is installed inside the hopper to move the shotball, a vertical conveyor connected to the hopper to move the shotball vertically, connected to the top of the vertical conveyor A shot recovery unit including a supply chute for receiving and re-inserting it into the shot thrower; A shot separation unit installed between the supply chute and a shot ball throwing machine for supplying shot balls to divide the shot balls according to the particle size; The shot ball size selection apparatus of the shot blaster including a separate supply for supplying the shot ball separated from the shot separation unit to the shot ball thrower according to the thickness or steel grade of the strip. The method of claim 1, wherein the shot separator is a filter cylinder in which cylindrical filters having different pore sizes are continuously arranged, and the shot balls supplied from a supply chute installed on one side of an outer plate provided at both ends of the filter cylinder are introduced into the filter barrel. A driving motor connected to an input pipe, a central shaft of the filter cylinder, and a filter cylinder for rotating the filter cylinder, and a separation cylinder in which shot balls passing through the filter cylinder are collected for each hole size at the bottom of the filter cylinder. Shortball size selection device of a shot blaster. According to claim 1, wherein the individual supply unit is provided with a blocking plate installed in the lower end of each separation bin, a driving cylinder for opening the blocking plate, installed in the lower end of each separation cylinder to send the shot ball to the distribution box connected to the throwing machine Shot granularity selection device of the shot blaster, characterized in that it comprises a connector. 4. The sorting box according to any one of claims 1 to 3, wherein a sorting box having a supply chute connected to a lower end of the supply chute at an upper part thereof, and a sorting box installed at a lower part thereof, and a sorting screen plate installed diagonally across the sorting box. A driving cylinder for vibrating the sorting screen plate is connected to the sorting screen plate, and a sorting unit including a collecting pipe and a storage box located on the screen plate of the sorting box to discharge the shot ball caught on the sorting screen plate. Shotball size selection device of a shot blasting, characterized in that it comprises a shot blaster.