KR20000004104U - Outflow Solution Collection Device - Google Patents

Abstract

The present invention relates to an outflow solution collecting device, which is installed at a position before a steel plate that has undergone a hot dip galvanizing bath flows into a cooling box located at an upper portion thereof, and flows out from the upper cooling box at both sides of the front and rear surfaces of the steel plate where the plating layer is formed. It is an outflow solution collecting device for adsorbing the solution, it is located on both sides of the steel plate to install the inlet for sucking the outflow solution, to collect the solution flowing out through the hose pipe installed in the rear end of the inlet, It solves the problem that accumulates in the zinc amount controller by installing a nozzle using COG gas and air as a device for compensating the edge temperature of the steel and adjusts it as necessary. It prevents the decrease of production due to the deterioration of quality and the temporary stop of the line. Mini seupaengkeul products with quality surface quality can be produced.

Description

Outflow Solution Collection Device

The present invention relates to a manufacturing apparatus for forming a mini spangle by mixing and spraying an ammonium phosphate solution and air on the plated steel sheet surface, and in particular, to prevent the ammonium phosphate solution from flowing down to the surface of the zinc amount controller The present invention relates to an ammonium phosphate effluent collecting device which prevents the quality and productivity yield from being degraded by contaminating the solution.

A manufacturing process for manufacturing the mini sequins will be described with reference to the accompanying drawings.

FIG. 1 is a manufacturing process diagram for forming a mini sequin including a process of mixing and spraying an ammonium phosphate solution and air on a plated steel plate surface.

As shown in the figure, in general, by passing the steel sheet through a hot dip galvanized zinc pot (Zinc Pot) 20, the zinc amount controller 30 attaches an appropriate amount of zinc required by the demand on the surface of the steel sheet. After performing the plating operation, the zinc of the steel sheet drawing is sprayed by mixing and spraying the air and ammonium phosphate solution in the cooling box (Cooling Box) 40 so that the miniature sequins are formed before the spangles are formed. Spangele).

On the other hand, in the work method of manufacturing by injecting a solution of the mixture of the ammonium phosphate solution and air as described above, when the injection pressure and air pressure for injecting a constant ammonium phosphate solution in the cooling box 40 to a high pressure, The solution fume generated in the cooling box 40 is not completely collected and discharged, and a small amount of the solution flows out to the bottom of the cooling box 40.

At this time, when the ammonium phosphate solution flowing out of the cooling box 40 is accumulated and attached to the zinc amount controller 30 (a device for injecting air at high pressure to meet the amount of zinc required by the demand), the ammonium phosphate solution is deposited on the zinc layer portion of the surface of the steel sheet. Severe markers (accumulation of the controller clogging markers due to cumulative solution attached to a portion of the zinc controller) occur.

In addition, when the ammonium phosphate solution is leaked, the surrounding equipment is contaminated, and when the defect in the zinc amount controller becomes more severe, a continuous operation of the continuous line is stopped at a low speed and momentarily to replace with a new zinc amount controller or the surface of the controller. There is a problem such as to perform the work after the polishing using a polishing machine such as sandpaper.

In the conventional mini sequin operation as described above, the zinc amount controller surface defect occurs due to the outflow of the solution from the cooling box during the operation, the quality of the zinc product is degraded, and the zinc amount controller is replaced or polished during the operation. Since the process must be performed after the process is made at a low speed, there is a problem that the production yield is reduced due to a temporary line stop and the yield is reduced.

Therefore, the present invention was devised to solve the conventional problems as described above, and the object of the present invention is that the steel sheet subjected to the hot dip galvanized bath in the step before flowing into the cooling box located thereon, the plated layer of the steel sheet formed The present invention provides an effluent solution collecting device which has a high quality surface quality by adsorbing the solution emanating from the cooling box on both sides of the front and back surfaces.

1 is a manufacturing process diagram for forming a mini sequin including a process of mixing and spraying the ammonium phosphate solution and air on the plated steel sheet surface

Figure 2 is a perspective view of the outflow solution collecting device for collecting the ammonium phosphate solution according to the present invention

3 is a cross-sectional view of the effluent solution collecting device of the present invention shown in FIG.

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

10: heating furnace 30: zinc amount controller

40: cooling box 60a, 60b: inlet

61a, 60b: hose 62a, 6b: damper

63a, 63b: Regulator 64a64b: Fixture

70a, 70b: nozzle 71a, 71b: guide

72a, 72b: COG gas and air pipe 80a, 80b: fixed body

81a, 81b: Electric motor 82a, 82b: Bearing block

83a, 83b: Thread 84a, 84b: Gearbox

85a, 85b: Body base 86a86b: Drive wheel

87a, 87b: Connecting Rod 88a, 88b: Hydraulic Cylinder

89a89b: pedestal 90a, 90b: rail

The present invention for achieving the above object,

The steel plate subjected to the hot dip galvanizing bath is installed at the position before flowing into the cooling box located at the upper side thereof, and the outflow solution for adsorbing the solution flowing out of the upper cooling box at both sides of the front and rear surfaces of the steel plate on which the plating layer is formed. In the collecting device,

A suction port installed to collect the solution flowing out of the upper cooling box at a spaced distance from the front and rear surfaces of the transfer steel plate on which the zinc layer is formed;

A hose pipe connected to the rear portion of the suction port and configured to drain the adsorbed solution;

Located in the lower portion of the inlet, and the fixed body portion to allow the intake of the inlet,

A transfer means coupled to the fixed main body to enable the suction port to move upward and downward;

A main body part attached to a lower part of the fixed main body part and having a driving wheel attached to a lower part thereof to allow horizontal movement of the suction port;

A cylinder operating part attached to one side of the main body base to enable forward and rearward movement of the suction port and the fixed main body;

Is bound to the upper portion of the inlet, characterized in that the configuration including a spray nozzle for enabling the temperature compensation of the steel sheet edge during operation and a guide for facilitating the front and rear direction of the inlet.

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

Figure 2 is a perspective view of the outflow solution collecting device for collecting the ammonium phosphate solution according to the present invention,

3 is a cross-sectional view of the effluent solution collecting device of the present invention shown in FIG.

Referring to the drawings, the outflow solution collecting device of the present invention is provided with suction ports (60a, 60b) to collect the solution flowing out of the cooling box 40 to the front and rear surface layer of the transfer steel sheet (strip) formed with a zinc layer. By doing so, it is possible to protect the zinc amount controller 30 installed in the lower side of the cooling box (40).

Dampers 62a and 62b and regulators 63a and 63b for adjusting the suction inlets 60a and 60b and the suction amount in the suction ports in the width direction of the steel plate, one on each of the fixed bodies around the front and rear surfaces of the steel sheet. ), And the inlet port (60a, 60b) is formed longer than the width of the steel plate, the rear of the bellows hose type hose pipe (61a, 61b) is installed so that it can be a smooth working condition, the inlet ( Electric motors 81a and 81b, bearing blocks 82a and 82b, gearboxes 84a and 84b and threads on the lower side of the fixed body 80a and 80b to enable up and down operation Connected to the front portion is fixed to the support (64a, 64b) is positioned to be freely moved up and down by driving the electric motor (81a, 81b).

In addition, the base body (85a, 85b) is provided at the lower side of the fixed body (80a, 80b), the driving wheels (86a, 86b) are provided at the bottom thereof, and the back, main body (85a, 85b) Hydraulic cylinders 88a and 88b are installed to enable this, and rails 90a and 90b are positioned below the main body bases 85a and 85b to support the driving wheels 86a and 86b and to enable smooth operation. Done.

In addition, COG gas and air pipes 72a and 72b and spray nozzles for temperature compensation of the steel plate edge during operation are installed, and guides 71a and 71b are installed to facilitate forward and backward sliding.

In addition, the ammonium phosphate solution collection device according to the present invention is to meet the zinc demand required by the zinc amount controller 30 on both sides of the steel sheet passed through the hot-dip galvanizing tank 20, and cooling with the upper portion of the zinc amount controller 30 The solution inlets 60a and 60b are installed to collect the solution generated from the spill between the boxes 40 and the suction ports 60a and 60b for the suction amount control.

Adjusting dampers 62a and 62b and regulators 63a and 63b are installed in the suction ports 60a and 60b, hoses 61a and 61b at the rear, and fixing bars 64a and b for fixing the suction ports at the bottom thereof. It is installed. In addition, the rear end of the thread (83a83, b) is mounted to the gearbox (84a, 84b) long to the bottom is mounted on the electric motor (81a, 81b) and the bearing block (82a, 82b).

In addition, main body bases (85a, b) are installed in the fixed body (80a, 80b), drive wheels (86a, 86b) for operation of the main body base, connecting rods (87a, 87b) and hydraulic cylinders (88a, 88b) at the rear end and Pedestals (89a, 89b) are located, the base portion of the rail (90a, 90b) is formed.

Referring to the operation of the outflow solution collecting device of the present invention configured as described above are as follows.

The ammonium phosphate solution collection device of the present invention as shown in FIGS. 2 and 3 is a high pressure solution and air in the cooling box 40 while the galvanized steel sheet passed through the molten zinc bath 20 is transferred in the vertical direction. It is sprayed to quench the galvanized steel sheet.

When the hydraulic cylinders 88a and 88b installed on the pedestals 89a and 89b on the main bodies 90a and 90b before the mini-spankle operation are collected to collect the effluent solution generated during the quenching operation, the main body base is moved forward. The drive wheels 86a, 86b provided below the 85a, 85b move to the steel plate side, and then stop.

Then, when the driving wheels 86a and 86b are stopped, the electric motors 81a and 81b installed on the fixed bodies 80a and 80b are powered by the gearboxes 84a and 84b through the motion bearing blocks 82a and 82b. This is delivered, the suction port (60a, 60b) is appropriately selected by the thread (83a, 83b) mounted on the suction port (60a, 60b), at which time the mounting base (64a, 64b) that can be smooth sliding is mounted Induced.

When the work preparation operation is completed as described above, and the mini sequin operation is performed, the solution flowing out of the bellows hose 61a and 61b pipes through the passage inlets 60a and 60b is discharged to the zinc amount controller 30 installed below. The complete collection operation is performed before, and the dampers 62a and 62b are easily controlled by the controllers 63a and 63b so that the suction amount of the suction ports 60a and 60b can be freely adjusted.

In addition, to compensate for the steel sheet edge temperature by generating a thermal image flame through the COG gas and air pipes (72a, 72b) in the thermal injection nozzles (70a, 70b) toward the inlet edge for temperature compensation of the steel sheet edge generated during operation, The central portion is to properly adjust the distance between the steel plate and the nozzles (70a, 70b) by the guide (71a, 71b) that can be adjusted forward, backward.

According to the outflow solution collecting device of the present invention as described above, in order to capture the solution flowing out of the cooling box from the front and rear of the transfer steel plate formed with a zinc layer, it is controlled by the damper and the regulator of the inlet, The solution flowing through the installed hose is collected. In addition, by installing a nozzle using a COG gas and air as a device for compensating the edge temperature of the steel sheet on the upper side of the inlet port, the operator adjusts as necessary to solve the problem that accumulates in the zinc amount controller and improves the temperature compensation of the steel sheet edge. This prevents deterioration of quality due to defects in zinc products and decreases in production due to temporary stoppage of the line, making it possible to manufacture mini sequin products with high quality surface quality demanded by demand.

Claims (1)

The steel plate subjected to the hot dip galvanizing bath is installed at the position before flowing into the cooling box located at the upper side thereof, and the outflow solution for adsorbing the solution flowing out of the upper cooling box at both sides of the front and rear surfaces of the steel plate on which the plating layer is formed. In the collecting device, A suction port installed to collect the solution flowing out of the upper cooling box at a spaced distance from the front and rear surfaces of the transfer steel plate on which the zinc layer is formed; A hose pipe connected to the rear portion of the suction port and configured to drain the adsorbed solution; Located in the lower portion of the inlet, and the fixed body portion to allow the intake of the inlet, A transfer means coupled to the fixed main body to enable the suction port to move upward and downward; A main body part attached to a lower part of the fixed main body part and having a driving wheel attached to a lower part thereof to allow horizontal movement of the suction port; A cylinder operating part attached to one side of the main body base to enable forward and rearward movement of the suction port and the fixed main body; Is bound to the upper portion of the inlet, the discharge solution collecting device comprising a spray nozzle for enabling the temperature compensation of the steel sheet edge during operation and a guide for facilitating forward and backward movement of the inlet