KR20020000256A - Apparatus for removing and seperating foreign materials on roll surface - Google Patents

Abstract

PURPOSE: An apparatus for removing and separating foreign materials on the surface of a deflector roll for transferring a steel sheet is provided which effectively prevents contamination of the surrounding environment by simply removing foreign materials adhered onto the surface of the deflector roll and separating and collecting the removed foreign substances according to their constituents at the same time. CONSTITUTION: In a deflector roll(10) for transferring a steel sheet passing through lead-tin plating process, the apparatus for removing and separating foreign materials on the surface of a deflector roll for transferring a steel sheet comprises a frame member(30) which is equipped with a scraper(20) removing the foreign materials by being closely adhered onto the surface of the deflector roll(10) so that the frame member(30) is axially fixed adjacently to one side of the deflector roll(10); a driving means(40) which is installed at the lower side of the frame member(30) so that the driving means(40) is driven by being contacted with the deflector roll(10); and a foreign materials separation means(70) comprising a first screen member(50) which is connected to the upper side of the driving means(40) so as to collect the removed foreign materials at the lower side of the frame member(30), and a second screen member(60) which is installed at the inner side of the first screen member(50) so as to collect the other removed foreign materials.

Description

Surface debris removal and separation device of steel sheet refraction roll {APPARATUS FOR REMOVING AND SEPERATING FOREIGN MATERIALS ON ROLL SURFACE}

The present invention relates to a device for removing foreign matter adhered to the steel sheet refraction roll to be transported after the lead-tin plating of the steel sheet, and more specifically, after performing an electroplating process such as lead-tin plating of the steel sheet When transported to the process, the foreign matter adhering to the surface of the refraction furnace, that is, chips or slag, etc. are effectively removed, and the components of the foreign matter, such as chips or slag, are collected and separated, thereby preventing them from scattering when removing the foreign matter of the refractive roll. In particular, the present invention relates to a surface foreign matter removal and separation device of the steel sheet refraction roll to effectively prevent contamination of the surrounding environment by scattered foreign matter.

In general, the lead-tin plating process is performed by passing a steel sheet through an electroplating cell (plating bath) filled with a lead-tin alloy plating electrolyte prepared by mixing a predetermined raw material on the surface of the steel sheet. It is an electroplating work to be attached to the surface of the steel plate. In the electrolyte, the composition ratio of lead and tin is 91.5% of lead and 8.5% of tin, which is 40 g / M2-60 g / m2 plating.

However, in the lead-tin plating of the steel sheet as described above, burning occurs due to current concentration in the EDGE portion of the steel sheet, and powders, etc., which are not electrodeposited on the surface of the steel sheet, continue to adhere to the surface of the refraction roll. The slag and chips attached to the welded portion are attached to the refraction roll, and eventually, after electroplating, it is necessary to remove the foreign matter attached to the refraction roll.

Figure 1 shows the removal of foreign matter adhered to the refractive roll after the conventional lead-tin plating operation.

That is, as shown in Figure 1, the foreign matter adhered to the surface of the refraction roll 100 is rotated by the scraper 120 is installed to be in close contact with the surface of the refraction roll 110 is installed to refractory conveying the steel sheet 100 ( 130 is removed as the scraper 120.

However, in the surface foreign matter removal operation of the conventional steel sheet refraction roll as described above, by simply removing the foreign matter 130 attached to the surface of the refraction roll 110 as the scraper 120, dust of the lead-tin component is easily Generated, and the dust of such lead-tin components has a problem of contaminating the working environment.

Furthermore, the foreign material 130 on the surface of the refractive roll 120 removed as one scraper 120 includes the above-described chip or slag, etc., by collecting and removing the slag and chips without removing them at a time. There are several problems such as impossible to recycle and complicated processing of removed foreign matter.

SUMMARY OF THE INVENTION The present invention has been made to improve the above-mentioned conventional problems. The object of the present invention is to simply remove foreign substances adhering to the surface of a refraction furnace for refractive transfer of steel sheets subjected to lead-tin plating, As the foreign matter is collected and separated according to its composition, it is not only easy to recycle the removed foreign matter, but also effectively collects dust generated when removing the foreign matter, effectively polluting the surrounding environment caused by foreign matter dust of lead-tin that is harmful to the human body. An object of the present invention is to provide an apparatus for removing and separating foreign matter from the surface of the steel sheet refraction roll.

1 is a perspective view showing a surface foreign matter removing apparatus of the conventional steel sheet refraction roll

Figure 2 is a perspective view showing the surface foreign matter removal and separation device of the steel sheet refraction roll in accordance with the present invention

Figure 3 is a side configuration showing the operating state of the surface foreign matter removal and separation device of the steel sheet refraction roll in accordance with the present invention

4 is a main structural diagram showing the foreign matter separation operation of the surface foreign matter removal and separation device of the present invention steel sheet refractive roll.

5 is a cross-sectional view of FIG.

Explanation of symbols on the main parts of the drawings

1 .... Foreign material removal and separation device 10 .... Refractory roll

20 .... scraper 30 .... frame member

32 .... horizontal frame 32a .... incision

32b, 34a .... Inch 34 .... Vertical Frame

36 .... support shaft 40 .... drive means

42 .... drive roll 44,46 .... sprocket

47 .... Feed belt 48 .... Drive shaft

49 .... rotary tube 50,60 .... 1,2 screen member

52 .... Wing plate 54,68 .... 1st and 2nd container

62 .... screen network 64 .... eccentric block

The present invention as a technical configuration for achieving the above object, in the refraction roll for refractive transfer of the steel sheet subjected to the lead-tin plating process, having a scraper in close contact with the surface of the refraction roll to remove foreign matters A frame member fixedly axially adjacent to one side of the refraction roll,

Driving means installed to be in contact with the refractive roll to the lower side of the frame member;

A first screen member connected to an upper side of the driving means and installed to collect foreign substances removed below the frame member, and a second screen member installed to collect other foreign substances removed into the first screen member. By providing a foreign material removal and separation device for the surface of the steel sheet refraction roll constituted as a foreign matter separation means.

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

Figure 2 is a surface foreign matter removal and separation device of the steel sheet refraction roll in accordance with the present invention, Figure 3 is a side configuration diagram showing the operating state of the surface foreign material removal and separation device of the refraction roll, Figure 4 is a surface foreign matter of the refraction roll Fig. 5 is a sectional view showing the main parts of the foreign substance separation operation of the removal and separation device.

First, Figures 2 to 4 show the foreign material removal and separation device 1 of the present invention. Looking at the foreign material removal and separation device 1 in detail, the steel sheet 2 subjected to the lead-tin plating process is refracted. A frame member 30 which is in close contact with the top of the refraction roll 20 and has a scraper 20 which is in close contact with the surface of the refraction roll 10 to be transferred and removes the foreign matter 12, and the frame member ( 30 and a first screen member 50 connected to an upper side of the driving means 40 to collect foreign substances 12 'and 12 "and installed thereon. Can be divided into a foreign matter separating means 70 including the second screen member 60 of the inner side, which will be described in detail sequentially.

Next, FIGS. 2 and 4 show the frame member 30 in the foreign material removal and separation apparatus 1 of the present invention, which is moved in the longitudinal direction from the top of the refraction furnace 10. It consists of a horizontal frame 32 and a vertical frame 34 that is vertically coupled to the rear end downward.

In addition, in FIG. 2, the horizontal frame 32 is provided, and the scraper 20 is installed to be inclined forward and actually comes into close contact with the refractive roll 10 to remove the foreign matter 12 from the roll surface. The rear end of the horizontal frame 32 is integrally formed with an inclined guide portion 32a for dropping the removed foreign matter 12 to the separating means 70 described later, and of the horizontal frame 32 The guide jaw 32b for guiding the foreign material 12 separated from the roll surface is integrally formed at both sides of the upper end.

In addition, FIG. 2 illustrates the vertical frame 34. The vertical frame 34 is vertically coupled and fixed to both the left and right sides of the horizontal frame 32, and after the horizontal frame 34. Guide jaws 34a for guiding the foreign material 12 at the ends are formed integrally with each other.

On the other hand, on the upper part of the vertical frame 34, the support shaft 36 which is rolled up to the support (not shown) standing on both sides of the refraction roll 10 to position the frame member 30 adjacent to the refraction roll 10 is The frame member 30 is installed to flow through a bearing block so that the frame member 30 flows at a predetermined angle.

Next, FIGS. 2 to 4 show a driving means 40 for generating a substantial driving force in the apparatus 1 of the present invention, the configuration of which drive means 40 is in contact with and rotates when the refractive roll 10 is driven. While generating the driving force from the refraction roll (10).

In addition, the driving means 40 will be described in detail. The driving roll 42 is installed to be in contact with the refractive roll 10 through the bearing blocks on both sides of the lower portion of the frame member 30, and the driving roll. The main sprocket 46 which is fastened to the sprocket 44 installed in the 42 is installed at one end, and is connected to the main sprocket 46 via the bearing block 48a at both sides of the center of the frame member 30. It is provided with a drive shaft 48 is installed so as to be rotatable to the conveying belt 47 is fastened, and a rotating cylinder 49 is integrally connected to the inside of the drive shaft 48.

In addition, although not shown in detail in the drawing, the surface of the drive roll 42 is covered with a rubber to increase the friction with the refractive roll 10, the main sprocket 46 is the one side of the drive roll 42 The conveying belt 47 which is integrally formed on one side and fastened to the driving shaft 48 is fastened in a cross shape, and the rotating cylinder 49 is driven to drive around the driving shaft 48 of the vertical frame 34. It is connected to the drive shaft 48.

Next, Figs. 2, 4 and 5 show the separating means 70 of the apparatus 1 of the present invention. The reason for installing the separating means 70 is that as described above, the refraction roll 10 This is to separate and separate the chip 12 'and the slag 12 "which occupy most of the foreign matter 12 removed from the surface. This separation means 70 is a large collection of the chip 12' It is divided into a second screen member 60 that separates and collects the first screen member 50 and the slag 12 ".

3 and 4 illustrate the first screen member 50, wherein the first screen member 50 has a predetermined interval along the circumference of the rotating cylinder 49 of the driving means 40. And a plurality of vanes 52 installed therein, and a first container 54 which is stowed by the frame member 40 to collect the foreign matter 12 ′ collected to the lower side of the vanes 52.

Then, the wing plate 52 is installed at about four intervals along the circumference of the rotary cylinder 49 at 90-degree intervals, the ends are bent at a right angle to collect foreign material, that is, the chip 12 ' To facilitate.

Next, FIG. 3 and FIG. 4 show the second screen member 60. The second screen member 60 of the rotary cylinder 49 rotates integrally when the driving roll 42 is rotated. Screen net 62 through which the rotary cylinder 49 is partially cut between the vanes 50 to separate and pass the foreign matter 12, and fine foreign matter 12 "such as slag into the screen net 62. ) Is provided with an eccentric block (64) for discharging, and a second container (68) connected to the opening (66) formed at one end of the rotating cylinder (49) and installed in the frame member (30).

The screen net 62 partially cuts the rotary cylinder 49 between the wing plates 50 of the rotary cylinder 49 which rotates integrally when the driving roll 42 rotates to remove the foreign substance 12. Depending on the size, it is installed to separate into chips 12 'or slag 12 ".

In addition, the one end portion of the eccentric block 64 is installed to discharge the foreign substances introduced into the inner central portion of the rotating cylinder 49 into the inside of the screen net 62 to the outside of the rotating toll 49. The eccentric seating portion 49a formed at one end of the 49 is supported via a guide roll 64a, and the other end of the eccentric block 64 has a ball shape at the inner other end of the rotary cylinder 49. The support shaft 64b, which is fixed in a flowable manner, is fixed to form a semicircular block having an open top to collect foreign matter through the screen net 62.

Referring to the action and effect of the present invention made in the above configuration in more detail as follows.

As shown in Figure 2 to 5, on the surface of the refraction roll 10 for refractive transfer of the steel sheet 2 subjected to the lead-tin plating process, the scraper is formed in a horizontal frame 32 of the frame member 30 When the front end of the 20 is kept in close contact with the refraction roll 10, the foreign matter 12 adhering to the surface of the refraction roll 10 is separated from the refraction roll 10.

At this time, as shown in Figure 2, the guide jaw (32b) is formed in the outer portion of the horizontal frame 32, the foreign material 12 removed from the refractive roll 10 is beyond the horizontal frame 32 Falling is prevented, and vertically installed from the rear of the horizontal frame 32 to the rear of the horizontal frame 32 through the incision (32a) formed in the rear end of the horizontal frame (32) It falls to the inside of the frame 34.

Next, as shown in FIGS. 2 and 4, the vertical frame 32 is installed in the horizontal frame 34 with only one side open, and the vertical frame 34 is only partially shown in the drawing. The shaft 35 is fixed to the upper side of the refractive roll 20.

Therefore, the vertical frame 34 can move around the shaft 35, and eventually drive rollers 42 are provided at both ends of the rotary shaft 42a which is rolled through the bearing block at the lower end of the vertical frame 34. ) Attracts the state of adhesion to the surface of the refractive roll (10).

At this time, the main sprocket 46 installed on one side of the drive roll 42 and the drive roll 42 of the vertical frame 34 to the rotation shaft 42a through the bearing block 48a is rotatably installed. The transfer belt 47 is crosswise fastened to the sprocket 44 coupled to one end of the drive shaft 48.

That is, when the driving roll 42 is rotated by the conveying belt 47 as the main sprocket 46 and the sprocket 44 by the rotation of the refractive roll 10 in a state in which the driving roll 42 is in close contact with the refractive roll 10, the driving shaft 48 ) Is integrally driven, and the rotary cylinder 49 provided inside the drive shaft 48 also rotates integrally,

Therefore, as shown in FIGS. 3 and 4, when the rotary cylinder 49 is rotated, the wing plates 52 of the first screen member 50 having approximately four installed at intervals of 90 degrees integrally with the outer portion thereof are disposed. The foreign matters 12 that fall while rotating are collected by the wing plate 52. At this time, the most important of the foreign matters 12 that are collected and dropped by the screen net 62 installed in the rotary cylinder 49 is a large needle, such as a needle. The foreign material 12 ′ does not pass through the screen net 62, and is collected by the vane 52 in the first container 54 horizontally installed at the rear end of the vertical frame 34.

On the contrary, when other foreign matter 12 ", such as slag of foreign matter, passes through the screen net 62 and falls into the inside of the rotating cylinder 49, the semicircular eccentric block 64 of the second screen member 60 with the upper portion opened. Fall).

One end of the eccentric block 64 is supported by an eccentric seating portion 49a formed at one end of the rotary cylinder 49 via a guide roll 64a, and the other end of the eccentric block 64 is provided. A support shaft 64b fixed to the inner other end of the rotary cylinder 49 to be movable in a ball shape is fixed.

Therefore, one side of the eccentric block 64 moves up and down along the eccentric seating portion 49a, and at the same time, the other end of the eccentric block 64 is maintained in a state supported by the center of the rotating cylinder 49. The foreign matter 12 ″ falling into the eccentric block 64, ie, the fine foreign matter such as slag having fine particles, is continuously collected at the other end by the flow of the eccentric block 64.

That is, the fine foreign matter 12 ″ collected in the eccentric block 64 through the screen net 62 of the second screen member 60 is vertical through the opening 66 formed at the other side of the rotating cylinder 49. The foreign material 12 is discharged to the second container 69 installed horizontally to one side of the frame 34, and eventually removed from the refractive roll 10 by the screening network 62 and the eccentric block 64, the size of the foreign matter 12 Can be separated and removed accordingly.

Thus, according to the present invention, the surface foreign matter removal and separation device of the steel sheet refraction roll, the foreign matter attached to the surface of the refraction furnace for the refraction transfer of the steel sheet subjected to the lead-tin plating process can be easily removed, By separate collection according to the components, there is an advantage that it is easy to recycle the removed foreign matter.

In addition, there is an excellent effect to effectively collect the dust generated during the removal of the foreign matter to effectively prevent contamination of the surrounding environment due to the foreign matter dust of lead-tin components harmful to the human body.

While the invention has been shown and described with respect to specific embodiments thereof, it will be apparent to those skilled in the art that various changes and modifications can be made without departing from the spirit or scope of the invention as set forth in the claims below. I would like to know that those who have knowledge of this can easily know.

Claims (6)

In the refraction roll 10 for refraction transfer of the steel sheet subjected to the lead-tin plating process, A frame member 30 having a scraper 20 in close contact with the surface of the refraction roll 10 to remove the foreign matter 12 and being axially fixed to one side of the refraction roll 20. A driving means (40) installed to be in contact with the refractive roll (10) to the lower side of the frame member (30); A first screen member 50 connected to an upper side of the driving means 40 and installed to collect the foreign matter 12 ′ removed below the frame member 30, and an inner side of the first screen means 50. Foreign material separating means 70 including a second screen member 60 installed to collect the other foreign material 12 "removed by the; foreign matter removal and separation device of the steel sheet refractive roll, characterized in that configured as The method of claim 1, wherein the frame member 30, The scraper 20 is fixed to the front integrally inclined, the rear end is formed with a cutout portion (32a) for the fall of foreign matter, the horizontal frame 32 is integrally formed on both sides of the foreign matter guide jaw (32b) and, It is installed vertically on both sides of the horizontal frame 32, consists of a vertical frame 34 that is formed integrally with the foreign matter guide jaw (34a) at the rear end, On the upper part of the vertical frame 34, the support shaft 36 is horizontally fixed to the support roll adjacent to the refraction roll is pivotally fixed so that the frame member 30 is fixed on the surface of the steel sheet refraction roll removal and separation device The method of claim 1, wherein the drive means 40, A driving roll 42 installed to contact the refraction roll 10 via a bearing block on both lower sides of the frame member 30; The main sprocket 46, which is fastened to the sprocket 44 installed on the drive roll 42, is installed at one end, and the drive shaft 48 is rotatably installed at both sides of the center of the frame member 30 via a bearing block. ) And, Surface foreign matter removal and separation device of the steel sheet refraction roll characterized in that it comprises a rotary cylinder 49 is integrally connected to the inside of the drive shaft 48 The method of claim 1, wherein the first screen member 50, A plurality of wing plates 52 installed at regular intervals along the circumference of the rotary cylinder 49 of the driving means 40; Device for removing and separating the surface foreign matter of the steel sheet refraction roll, characterized in that it comprises a first container (54) which is stowed on the frame member 40 to collect the foreign material 12 'collected to the lower side of the wing plate (52). The method of claim 1, wherein the second screen member 60, A screen net (62) installed between the vanes (50) of the rotating cylinder (49), Eccentric block 64 is installed to discharge the fine foreign matter introduced into the screen net 62, and Device for removing and separating foreign substances on the surface of the steel sheet refraction roll comprising a second container (68) connected to the opening (66) formed at one end of the rotating cylinder (49) and installed in the frame member (30). 6. The eccentric block (64) according to claim 5, wherein one end of the eccentric block (64) is supported by an eccentric seating portion (49a) formed at one end of the rotary cylinder (49a) via a guide roll (64a). The other end of the 64 is fixed to the support shaft 64b fixed to the inner other end of the rotating cylinder 49, and is formed of a semicircular block having an upper portion open to collect foreign matter through the screen net 62. Surface foreign matter removal and separation device of the steel sheet refraction roll