KR102044984B1 - Device for preventing scattering of solution - Google Patents

Abstract

The present invention relates to a solution scattering prevention device for preventing the solution from leaking or scattering.
Solution scattering prevention device according to an embodiment of the present invention, is formed in a plate shape to block the both sides of the centrifugal axial direction of the pair of sink roll, the receiving hole for receiving the rolling shaft of the upper sink roll and the lower sink roll is formed A cover plate and a plate shape disposed in parallel with the cover plate so as to block both sides of the upper sink roll in the centrifugal axial direction, and a cylindrical portion in which a rolling shaft of the upper sink roll is rotatably inserted in a central portion thereof. A cylindrical shape in which the upper shatterproof plate and the plate shape are disposed in parallel with the cover plate so as to block both side portions of the lower sink roll in the centrifugal axial direction, and the rolling shaft of the lower sink roll is rotatably inserted in the center portion. An additional lower shatterproof plate, the upper shatterproof plate and the lower To surround the both sides in the width direction of the cylindrical portion of the standard anti-scattering plate may include a guide rail formed in the cover plate.

Description

DEVICE FOR PREVENTING SCATTERING OF SOLUTION}

The present invention relates to a solution scattering prevention device, and more particularly, to a solution scattering prevention device that is applied to a different thickness to prevent the solution from being scattered even when processing a plurality of plates of varying thickness or a plate of varying thickness will be.

Generally, in the painting and plating process of steel, pre- and post-treatment facilities are provided to improve the performance of painting and plating.

Examples of such pretreatment and posttreatment facilities are facilities which are pretreated or post-treated by a solution while the steel of a plate (plate before cutting) passes between a pair of sink rolls that are immersed in a solution inside the tank. Are used a lot.

Among them, the Wringer Roll facility used in the pre-treatment process of the hot dip galvanizing facility removes rolling oil, degreasing agent, iron powder, etc. on the surface of the material by using an alkaline solution and a brush before galvanizing the material. In addition, the Conductor Roll facility used in the electroplating cell process functions to charge the material to the cathode (-), and the anode charged as the anode charged material proceeds in the plating solution of sulfuric acid or hydrochloric acid base. Plating is performed on the surface of the material by causing an electrical redox reaction with the plate.

As such, the pair of sink rolls used in the solution is to be closed up or down depending on the thickness of the material, and thus the position of the sink roll must be adjusted to seal the parts provided at both ends of the rotating shaft to move the rotating shaft of the sink roll. Perfect sealing can be difficult. Furthermore, if a solution leaks or splashes between the parts on both ends of the rotating shaft, an alkali or acidic solution may corrode other parts such as a bearing block and peripheral equipment, causing process failure, and complying with environmental quality standards. May be invaded.

Therefore, the present invention was created to solve the above problems, and an object of the present invention is to provide a solution scattering prevention device for preventing the solution from leaking or scattering.

Solution scattering preventing device according to an embodiment of the present invention for achieving this object is a solution scattering preventing device that is applied to the surface treatment by pressurizing while passing between a pair of sink roll to rotate the plate while submerged in the solution Can be.

Solution scattering prevention device according to an embodiment of the present invention, the one of the pair of sink rolls, the cylindrical upper sink roll in which a rolling shaft of smaller diameter than the portion for pressing the plate is projected concentrically with the centrifugal shaft, Another one of the pair of sink rolls, the lower end of the cylindrical shape in which the centrifugal axis of the upper sink roll and its centrifugal axis are arranged in parallel, and the rolling shaft having a diameter smaller than the portion for pressing the plate is projected concentrically with the centrifugal axis. A cover plate formed in a plate shape so as to block both sides of the pair of sink rolls in the centrifugal axial direction, and a receiving plate having a receiving hole for receiving the rolling shafts of the upper sink roll and the lower sink roll; It is formed in a plate shape arranged in parallel with the cover plate so as to block the both sides of the centrifugal axial direction of the sink roll, An upper shatterproof plate having a cylindrical portion into which a rolling shaft of the upper sink roll is rotatably inserted, and a plate shape disposed in parallel with the cover plate so as to block both sides of the lower sink roll in a centrifugal axial direction; The cover to surround the lower shatterproof plate having a cylindrical portion in which a rolling shaft of the lower sink roll is rotatably inserted, and the width direction both sides of the upper shatterproof plate and the lower shatterproof plate with respect to the cylindrical portion; It may include a guide rail formed on the plate.

The upper shatterproof plate and the lower shatterproof plate may be vertically moved together with the respective rolling shafts while being guided by the guide rails.

The accommodation hole may be elongated in the vertical direction so that the rolling shaft of the upper sink roll and the lower sink roll can move up and down in the accommodation hole.

Solution scattering prevention device according to an embodiment of the present invention, is provided between the outer circumferential surface of the rolling shaft and the cylindrical portion, may further include a rolling member that functions to smooth the relative rotation of the rolling shaft relative to the cylindrical portion. have.

The rolling member may include an annular fixed ring fitted in close contact with the outer circumference of the rolling shaft, a sleeve into which the rolling shaft fitted with the fixed ring is inserted, and an annular rotating ring fitted into the outer circumference of the sleeve. have.

The sleeve may be fixed to the rolling shaft by close contact with the fixing ring, and the rotation ring may function to smooth the relative rotation of the sleeve with respect to the cylindrical portion between the sleeve and the cylindrical portion.

The cover plate may include an inner plate disposed relatively close to the portion for pressing the plate and an outer plate disposed relatively far from the portion for pressing the plate.

The guide rail may be formed on an outer surface of the outer plate.

The guide rail may be bent from the guide rail protruding from the outer plate and extended to have an inner surface opposite to the outer surface of the outer plate, and bent from the guide rail protruding from the outer plate and the outer leg. It is possible to form an inner rail portion having an outer surface opposite to a part of the inner surface and extending to have an inner surface opposite to the outer surface of the outer plate.

One of the upper shatterproof plate and the lower shatterproof plate may be disposed between the outer rail part and the inner rail part, and the other may be disposed between the inner rail part and the outer plate.

The outer plate, the guide rail, the outer rail portion, and the inner rail portion may form an “E” shaped cross section.

A portion of the upper shatterproof plate and a portion of the lower shatterproof plate overlap, the upper sink roll is moved to the uppermost movable side, and the upper shatterproof even when the lower sink roll is moved to the lowermost movable side. Overlapping of a portion of the plate and a portion of the lower shatterproof plate may be maintained.

Solution scattering prevention device according to an embodiment of the present invention, the bearing block is provided on one end of the rolling shaft, the rolling shaft is rotatably connected, and the vertical movement of the rolling block by the vertical movement of the rolling block to implement the vertical movement of the rolling shaft The actuator may further include a.

As described above, according to the embodiment of the present invention, the solution is not leaked or scattered by the configuration of the cover plate, the rolling member, and the anti-scattering plate, thereby preventing moisture absorption and corrosion of other parts and surrounding equipment, and environmental standards. The environment can be managed so as not to interfere with it.

In addition, since corrosion of parts is prevented and replacement and repair work are not required, the service life of a facility can be extended, product quality can be improved, and production costs can be reduced.

1 is an exploded view of a solution scattering prevention device according to an embodiment of the present invention.
2 is a perspective view of a solution scattering prevention device according to an embodiment of the present invention.
3 is a cross-sectional view taken along line AA of FIG. 2.

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

1 is an exploded view of a solution scattering prevention apparatus according to an embodiment of the present invention, Figure 2 is a perspective view of a solution scattering prevention apparatus according to an embodiment of the present invention.

As shown in Fig. 1 and Fig. 2, the solution scattering prevention device 1 according to the embodiment of the present invention is a pair of rotating the steel plate 3 is locked in the solution inside the tank (not shown) It is applied to the surface treatment equipment which functions to surface-treat by the solution while passing between the sink rolls 10a and 10b. In other words, the solution scattering prevention device 1 may be a part of the surface treatment facility, and provided to prevent leakage and scattering of the solution by blocking both ends of the centrifugal axis of the pair of sink rolls 10a and 10b. do.

The solution shatterproof device 1 includes an upper sink roll 10a, a lower sink roll 10b, a cover plate 20, a rolling member 30, an upper shatterproof plate 40a, and a lower shatterproof plate 40b. ).

The upper sink roll 10a is one of the pair of sink rolls 10a and 10b and is formed in a cylindrical shape having a constant length in the centrifugal axis direction. In addition, assuming that the traveling direction of the plate 3 is horizontal, the upper sink roll 10a is located above the pair of sink rolls 10a and 10b. For convenience of explanation, in the following description, the moving direction of the plate 3 will be described as being horizontal.

The lower sink roll 10b is the other one of the pair of sink rolls 10a and 10b and is formed in a cylindrical shape having a predetermined length in the centrifugal axis direction and formed in the same shape as the upper sink roll 10a. Can be. In addition, assuming that the traveling direction of the plate 3 is horizontal, the lower sink roll 10b has the pair of sink rolls 10a such that the centrifugal axis of the upper sink roll 10a and the centrifugal axis thereof are parallel to each other. , 10b). On the other hand, the plate 3 is pressurized by the upper sink roll 10a and the lower sink roll 10b while passing between the pair of sink rolls 10a and 10b. That is, portions of the upper sink roll 10a and the lower sink roll 10b that press the plate 3 face each other according to the rotation of the upper sink roll 10a and the lower sink roll 10b. Is placed. Here, as the upper sink roll 10a and the lower sink roll 10b are formed in the same shape, for convenience of description, the upper sink roll 10a and the lower sink roll 10b are formed or provided in the same manner. Repeated descriptions of the components will be omitted.

Rolling shafts 12 are formed in the sink rolls 10a and 10b. The rolling shaft 12 is formed in a cylindrical shape having a diameter smaller than the diameter of the portion for pressing the plate 3 and protrudes in the centrifugal axis direction from the portion for pressing the plate 3. In addition, the rolling shaft 12 is disposed concentrically with the sink rolls 10a and 10b, and the rolling shaft 12 is rotated to rotate the upper sink roll 10a and the lower sink roll 10b. This is implemented.

The cover plate 20 is formed in a wide plate shape so as to block both side portions in the centrifugal axial direction of the sink rolls 10a and 10b, and the cover plate 20 has the upper sink roll 10a and the lower sink roll. The accommodation hole 25 is formed to accommodate the rolling shaft 12 of 10b. In addition, the accommodation hole 25 is formed long in the vertical direction so that the rolling shaft 12 is capable of vertical movement in the accommodation hole (25). On the other hand, as the rolling shaft 12 moves up and down in the accommodation hole 25, the distance between the upper sink roll 10a and the lower sink roll 10b is changed. Therefore, it is possible to process the several board | plate 3 with which thickness differs, or to process the board | plate 3 with which thickness differs.

The cover plate 20 may be arranged in a double. In other words, the cover plate 20 may be composed of an inner plate 21 disposed on the inner side relatively close to the portion for pressing the plate 3 and an outer plate 23 disposed on the outer side. As such, when the cover plate 20 is arranged in a double, the performance of blocking both ends of the centrifugal axial direction of the sink rolls 10a and 10b is enhanced. In the present specification, the inner side and the outer side apply the same criteria as those of the inner plate 21 and the outer plate 23, and the direction away from the portion pressurizing the plate 3 of the sink rolls 10a and 10b. Define outside.

The rolling member 30 is provided on the outer circumferential surface of the rolling shaft 12 and functions to enable rotation of the rolling shaft 12. The rolling member 30 also includes a stationary ring 32, a sleeve 34, and a rotating ring 36.

The fixing ring 32 is formed in an annular shape to be fitted to the outer circumference of the rolling shaft 12. In addition, the fixing ring 32 is in close contact with the outer circumferential surface of the rolling shaft 12. Furthermore, the fixing ring 32 may be formed of a rubber material, and so-called O-rings such as the fixing ring 32 which perform a sealing function may be known to those skilled in the art. It will be apparent to those having the art (hereinafter, those skilled in the art), so a detailed description thereof will be omitted. On the other hand, it is shown in Figure 1 and 2 that the two fixing rings 32 are arranged in duplicate, but is not limited thereto.

The sleeve 34 is formed in a hollow cylindrical shape so that the rolling shaft 12 is inserted into the hollow. The rolling shaft 12 is also inserted into the hollow of the sleeve 34 with the retaining ring 32 fitted therein. Furthermore, the sleeve 34 may be fixed to the rolling shaft 12 by close contact with the fixing ring 32. Typically, since the function of the sleeve 34 is arranged to be inserted into the shaft-shaped rotating body to enable a stable rotation of the rotating body will be apparent to those skilled in the art, a detailed description thereof will be omitted.

The rotating ring 36 is formed in an annular shape so as to fit on the outer circumference of the sleeve 34. The rotary ring 36 also functions as a bearing that facilitates the rolling shaft 12 and the sleeve 34 to rotate together. On the other hand, it is shown in Figure 1 and 2 that the two rotary rings 36 are arranged in duplicate, but is not limited thereto.

The upper shatterproof plate 40a is arranged to receive the rolling shaft 12 of the upper sink roll 10a. In addition, the upper shatterproof plate 40a is provided with a plate portion 42 and a cylindrical portion 44.

The plate portion 42 is formed in a rectangular plate shape disposed in parallel with the cover plate 20 so as to block both side portions of the sink rolls 10a and 10b in the centrifugal axial direction.

The cylindrical portion 44 is formed in a hollow cylindrical shape so that the rolling shaft 12 is inserted into the hollow 46. In addition, the cylindrical portion 44 is disposed at the center of the square plate of the plate portion 42. Further, the rolling shaft 12 is inserted into the hollow 46 of the cylindrical portion 44 with the rolling member 30, and the rotary ring 36 is the outer peripheral surface of the sleeve 34 and the The relative rotation of the sleeve 34 and the cylindrical portion 44 is smooth between the inner circumferential surfaces of the cylindrical portion 44. At this time, the cylindrical portion 44 does not rotate.

The lower shatterproof plate 40b is arranged to receive the rolling shaft 12 of the lower sink roll 10b. In addition, the lower shatterproof plate 40b is provided with a plate portion 42 and a cylindrical portion 44. Here, the plate portion 42 and the cylindrical portion 44 of the lower shatterproof plate 40b will be described for the plate portion 42 and the cylindrical portion 44 of the upper shatterproof plate 40a. Since it is the same as that, repeated description will be omitted. That is, the lower shatterproof plate 40b is formed in the same shape as the upper shatterproof plate 40a.

The upper shatterproof plate 40a and the lower shatterproof plate 40b are disposed outside the outer plate 23 relatively. In other words, the rolling shaft 12 of the upper sink roll 10a may include the accommodation hole 25 of the inner plate 21 and the accommodation hole of the outer plate 23 with the rolling member 30. It is arranged to pass through 25 to be inserted into the cylindrical portion 44 of the upper shatterproof plate (40a), the rolling shaft 12 of the lower sink roll (10b) is provided with the rolling member (30) Passing through the receiving hole 25 of the inner plate 21 and the receiving hole 25 of the outer plate 23 is disposed to be inserted into the cylindrical portion 44 of the lower shatterproof plate 40b. Therefore, the upper shatterproof plate 40a and the lower shatterproof plate 40b move up and down together with the rolling shaft 12. Here, the receiving hole 25 is opened to the lower side of the cover plate 20, the cover plate 20 is the rolling shaft 12 is the upper shatterproof plate (40a) and the lower shatterproof plate ( 40b) can be assembled while moving from the top to the bottom in the inserted state.

Guide rails 27 are formed on the outer plate 23. The guide rails 27 are formed in a pair to surround both sides of the square plate-shaped plate portion 42 in the width direction with respect to the cylindrical portion 44, and the upper shatterproof plate 40a and the lower portion. Guide the vertical movement of the shatterproof plate (40b). In addition, one of the upper shatterproof plate 40a and the lower shatterproof plate 40b is relatively further spaced apart from the outer plate 23 so that a portion of the plate portion 42 of the upper shatterproof plate 40a may be formed. The guide rails 27 are formed in duplicate so that a portion of the plate portion 42 of the lower shatterproof plate 40b overlaps. Meanwhile, a portion of the plate portion 42 of the upper shatterproof plate 40a is moved even when the upper sink roll 10a is moved to the uppermost movable side and the lower sink roll 10b is moved to the lowermost movable movable side. And a portion of the plate portion 42 of the lower shatterproof plate 40b overlap. Therefore, in the centrifugal axial direction of the sink rolls 10a and 10b even under a maximum gap condition between the upper sink roll 10a and the lower sink roll 10b according to the thickness of the plate 3 to be processed. Therefore, no gap is generated between the upper shatterproof plate 40a and the lower shatterproof plate 40b, and the solution is scattered by the upper shatterproof plate 40a and the lower shatterproof plate 40b. Is blocked.

As shown in FIG. 2, the solution scattering prevention device 1 according to the embodiment of the present invention further includes a bearing block 14 and an actuator 16.

The bearing block 14 is formed of the accommodating hole 25 of the inner plate 21, the accommodating hole 25 of the outer plate 23, and the cylindrical portion 44 of the shatterproof plates 40a and 40b. It is provided at one end of the rolling shaft 12 sequentially passed through the hollow 46. In addition, the bearing block 14 includes a bearing (not shown) for smoothing the relative rotation of the bearing block 14 and the rolling shaft 12. At this time, the bearing block 14 does not rotate.

The actuator 16 is connected to the bearing block 14 and functions to vertically move the bearing block 14. Here, the actuator 16 is connected to the upper side of the bearing block 14 provided at one end of the rolling shaft 12 of the upper sink roll 10a, and one end of the rolling shaft 12 of the lower sink roll 10b. The actuator 16 may be connected to the bearing block 14 provided in the lower side, but is not limited thereto. As the actuator 16 moves the bearing block 14 up and down, the shatterproof plate into which the sink rolls 10a and 10b and the rolling shaft 12 of the sink rolls 10a and 10b are inserted is inserted. 40a, 40b) moves up and down together. On the other hand, the actuator 16 may be designed to control the rotation of the sink roll (10a, 10b) through the rotation of the rolling shaft 12, but the motor for rotating the sink roll (10a, 10b) (not shown) May be provided separately.

Here, the upper end of the cover plate 20 and the upper end of the upper anti-scattering plate 40a are disposed higher than the solution filled in the tank, and the height of the solution filled in the tank is of the lower anti-scattering plate 40b. It is preferred to be lower than the top. Therefore, the cover plate 20 including the inner plate 21 and the outer plate 23 primarily blocks the scattering of the solution and is to be scattered between the receiving holes 25 of the cover plate 20. The upper shatterproof plate 40a and the lower shatterproof plate 40b may be blocked by a second solution. Furthermore, even when processing a plurality of plate 3 of varying thickness or processing a plate 3 of varying thickness, the upper scattering prevention plate 40a is moved together with the upper sink roll 10a, thereby effectively scattering the solution. You can block.

3 is a cross-sectional view taken along the line A-A of FIG. 2.

As shown in FIG. 3, the guide rail 27 formed on the outer plate 23 includes an outer rail part 27a and an inner rail part 27b.

The outer rail portion 27a is bent from the guide rail 27 protruding outward from the outer plate 23 to extend to have an inner surface opposite to the outer surface of the outer plate 23. That is, the outer plate 23, the guide rail 27, and the outer rail portion 27a form a cross section of a “U” shape.

The inner rail portion 27b is bent from the guide rail 27 protruding outward from the outer plate 23 and extends between the outer rail portion 27a and the outer plate 23. In addition, the inner rail portion 27b has an outer surface opposite to the inner surface of the outer rail portion 27a and extends to have an inner surface opposite to the outer surface of the outer plate 23. That is, the outer plate 23, the guide rail 27, and the inner rail portion 27b form a “U” shaped cross section, and the outer plate 23, the guide rail 27, The outer rail portion 27a and the inner rail portion 27b form a cross section of an “E” shape as a whole.

One of the upper shatterproof plate 40a and the lower shatterproof plate 40b is positioned and guided in one groove of the "E" -shaped cross section, and is guided by the "E" shaped cross section. The other one of the upper shatterproof plate 40a and the lower shatterproof plate 40b is positioned and guided in the other groove. For example, a plate portion 42 of the upper shatterproof plate 40a is positioned between an inner surface of the outer rail portion 27a and an outer surface of the inner rail portion 27b, and the inner rail portion 27b. The plate portion 42 of the lower shatterproof plate 40b may be located between an inner surface of the lower surface and the outer surface of the outer plate 23, but examples of the above-described examples are illustrated in FIGS. 2 and 3, but are not limited thereto.

As described above, according to the embodiment of the present invention, the solution is not leaked or scattered by the configuration of the cover plate 20, the rolling member 30, and the anti-scattering plates 40a and 40b. The surrounding environment can be managed to prevent moisture absorption and corrosion of the equipment, and to avoid violating environmental standards. In addition, since corrosion of parts is prevented and replacement and repair work are not required, the service life of a facility can be extended, product quality can be improved, and production costs can be reduced.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited to the above embodiments, and easily changed and equalized by those skilled in the art from the embodiments of the present invention. It includes all changes to the extent deemed acceptable.

1: solution shatterproof device
3: mail order
10a: upper sink roll 10b: lower sink roll
12: rolling shaft
14: bearing block 16: actuator
20: cover plate 21: inner plate
23: outer plate 25: receiving hole
27: guide rail 27a: outer rail portion
27b: inner rail part
30: rolling member 32: fixed ring
34: sleeve 36: rotating ring
40a: upper shatterproof plate 40b: lower shatterproof plate
42: plate 44: cylindrical portion
46: cylindrical hollow

Claims (9)

In the solution scattering prevention device is applied to a facility to pressurize the surface of the plate while passing between a pair of rotating sink rolls immersed in the solution,
One of the pair of sink rolls, wherein the upper shaft roll has a cylindrical shape in which a rolling shaft having a diameter smaller than a portion for pressing the plate is projected concentrically with the centrifugal shaft;
Another one of the pair of sink rolls, the lower end of the cylindrical shape in which the centrifugal axis of the upper sink roll and its centrifugal axis are arranged in parallel, and the rolling shaft having a diameter smaller than the portion for pressing the plate is projected concentrically with the centrifugal axis. Sink rolls;
A cover plate formed in a plate shape so as to block both sides of the pair of sink rolls in the centrifugal axial direction, and having a receiving hole for receiving the rolling shafts of the upper sink roll and the lower sink roll;
An upper shatterproof plate is formed in a plate shape parallel to the cover plate so as to block both sides of the upper sink roll in the centrifugal axial direction, and a cylindrical portion in which a rolling shaft of the upper sink roll is rotatably inserted in a central portion thereof. ;
A lower shatterproof plate is formed in a plate shape disposed in parallel with the cover plate so as to block both side portions of the lower sink roll in the centrifugal axial direction, and a cylindrical portion in which a rolling shaft of the lower sink roll is rotatably inserted in a central portion thereof. ; And
Guide rails formed on the cover plate to surround both sides in the width direction of the upper scattering prevention plate and the lower scattering prevention plate based on the cylindrical portion;
Including,
The upper shatterproof plate and the lower shatterproof plate block a solution scattered to the receiving hole of the cover plate,
The upper shatterproof plate and the lower shatterproof plate are guided by the guide rail and move up and down with the respective rolling shafts.
Correspondence between the upper sink roll and the lower sink roll while the upper sink roll is moved to the uppermost side movable along the guide rail and the lower sink roll is moved to the lowest side movable along the guide rail. Wherein a portion of the upper shatterproof plate overlaps a portion of the lower shatterproof plate. The method of claim 1,
The housing hole is characterized in that the holding hole is formed long in the vertical direction so that the rolling shaft of the upper sink roll and the lower sink roll to the vertical movement in the receiving hole. The method of claim 1,
And a rolling member provided between an outer circumferential surface of the rolling shaft and the cylindrical portion, the rolling member functioning to facilitate relative rotation of the rolling shaft with respect to the cylindrical portion. The method of claim 3,
The rolling member,
An annular fixing ring fitted in close contact with an outer circumference of the rolling shaft;
A sleeve into which the rolling shaft fitted with the fixing ring is inserted; And
An annular rotating ring fitted to an outer circumference of the sleeve;
Including;
The sleeve is fixed to the rolling shaft by close contact with the fixing ring, the rotating ring is a solution characterized in that the relative rotation of the sleeve with respect to the cylindrical portion between the sleeve and the cylindrical portion smoothly Shatterproof device. The method of claim 1,
The cover plate,
An inner plate disposed relatively close to a portion for pressing the plate; And
An outer plate disposed relatively far from a portion for pressing the plate;
Including;
The guide rail is formed on the outer surface of the outer plate solution scattering prevention device. The method of claim 5,
The guide rail,
An outer rail portion bent from the guide rail protruding from the outer plate and extending to have an inner surface opposite to the outer surface of the outer plate; And
An inner rail portion that is bent from the guide rail protruding from the outer plate and has an outer surface opposite to the inner surface of the outer rail portion and extends to have an inner surface opposite to the outer surface of the outer plate;
Form the
One of the upper shatterproof plate and the lower shatterproof plate is disposed between the outer rail portion and the inner rail portion, the other is disposed between the inner rail portion and the outer plate Shatterproof device. The method of claim 6,
And the outer plate, the guide rail, the outer rail part, and the inner rail part form an “E” shaped cross section. delete The method of claim 1,
A bearing block provided at one end of the rolling shaft and rotatably connected to the rolling shaft; And
An actuator for vertical movement of the rolling shaft by vertically moving the bearing block;
Solution scattering prevention device further comprising.

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