KR101584486B1 - Surface treatment method for using a surface treatment apparatus and the same steel - Google Patents

Abstract

The present invention relates to a surface treatment device for a steel material and a surface treatment method using the same and, more specifically, relates to a surface treatment device for a steel material and a surface treatment method using the same which performs dry surface using a brush using an abrasive material or a power tool (grinder) when a surface is treated and wet surface treatment to prevent dust from being scattered by injecting washing water of a high pressure when the surface is treated, wherein the surface treatment device is to treat a corroded surface of a bottom, a ceiling, and a wall on an inner surface or an outer surface of the steel material and a steel bridge using the abrasive material or the power tool (the grinder). The surface treatment device (10) to treat the surface of a steel material surface (30) of a steel structure comprises: a main body case unit (100) having a main body housing (110) formed in a square frame and a plurality of guide grooves (111) formed on an outer circumference of the main body housing (110), wherein a housing cover (120) is installed in an open side of the main body housing (110); an LED (20) providing convenience for work when the surface treatment is performed on a side of the main body housing (110); an intake and spray unit (200) comprising an intake and spray housing (210) having an intake port (220) on a center of the housing cover (120); and a brush unit (300) combined with the housing cover (120) and installed in the outer circumference of the intake and spray unit (200).

Description

TECHNICAL FIELD The present invention relates to a steel surface treatment apparatus and a surface treatment method using the steel surface treatment apparatus.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a steel surface treatment apparatus and a surface treatment method using the steel surface treatment apparatus, and more particularly, to a steel surface treatment apparatus and a surface treatment method using the steel surface treatment apparatus. Surface treatment using a brush or a power tool (grinder) using an abrasive for surface treatment, and a wet surface treatment for preventing scattering of dust by spraying high pressure washing water during surface treatment. And a surface treating method using the same.

In general, surface treatment equipment used in buildings made of steel bridges or steel is subjected to general surface treatment by brushing through the brushes to smooth the surface of walls, floors and ceilings during the regeneration or finishing work.

The surface treatment device is divided into electric and manual type, and the electric type has an advantage of using the electric motor to perform the surface treatment without applying the force by the operator. However, in the case of the electric type, there is a problem that the surface treatment apparatus is bulky and inconvenient to move, which makes it difficult to work in a narrow space, and the weight is heavy, which is not efficient in work.

In the case of electric or manual type, the dust generated during the operation is scattered by using the surface treatment device, which causes a fatal problem to the human body of the worker.

<References>

Application No. 10-2011-0078598 Environmentally friendly surface treatment apparatus and surface treatment method of iron plate and concrete without scattered dust

In order to solve the above-mentioned problems, the present invention aims at treating the surface of a steel material, a wall surface of an inner or outer surface of a steel bridge, a corroded surface of a ceiling and a bottom surface using an abrasive, a brush or a power tool.

Also, it is an object of the present invention to protect a worker from scattered dust by injecting washing water sprayed on dust scattered during the surface treatment and sealing / sealing the sealing cap to the surface-treated surface, and to improve working environment by incorporating LED illumination.

The object of the present invention is to filter the polluted water generated after the operation and reuse the polluted water, and to discharge the polluted dust to prevent environmental pollution.

It is also an object of the present invention to provide an auxiliary guide to the surface treatment apparatus to provide the convenience of the operator, thereby maximizing the working efficiency.

According to an aspect of the present invention, there is provided an apparatus for surface treatment of a steel surface of a steel structure, comprising: a main body housing formed by a rectangular frame; a plurality of guide grooves formed in an outer circumferential surface of the main body housing; And a housing cover 120 is provided on the opened side of the main housing 110, And a suction and dispensing part 200 including a suction and dispense housing 210 in which a suction port 220 is formed at the center of the housing lid 120. The suction and dispensing part 200 is coupled to the housing lid 120, A brush part 300 provided on an outer circumferential surface of the jet part 200; A suction and discharge housing groove 122 formed in the center of the housing cover 120 to be coupled to the suction and discharge housing 210; A brush housing groove 121 formed to surround the brush portion 300 around the suction and discharge housing groove 122; An injection nozzle groove 123 formed on the inner surface of the diagonal line of the suction and discharge housing groove 122; A handle 130 provided on the rear surface of the main body housing 110 for an operator to operate the main body housing 110; A side auxiliary guide 140 coupled to the guide groove 111 to support the main housing 110; A guide adjusting shaft 141 coupled to the side auxiliary guide 140 and adjustable according to the gap; A guide shaft stopper 142 formed at one side of the guide adjusting shaft 141 to fix the guide adjusting shaft 141 adjusted by the side auxiliary guide 140; A washing water spray nozzle 230 provided to spray the washing water onto the steel surface 30 on the upper outer circumferential surface of the suction and dispense housing 210; An abrasive spray nozzle 240 configured to spray an abrasive material on the inner bottom surface of the suction and discharge housing 210 for spraying on the steel surface 30 to perform a surface treatment; (10) comprising: an LED (20) provided on a side surface of the main body housing (110) for providing convenience in work during surface treatment; .
A brush housing 310 coupled to the brush housing groove 121; A sealing cap 330 formed of a rubber material on the brush housing 310 and adapted to be in close contact with or close to the steel surface 30; A brush 320 is provided on the inner surface of the brush housing 310 and a brush fixing ring 350 provided inside the brush 320 for fixing the brush 320 to the brush housing 310, ; An adjusting band 340 for generating and fixing a pressure at the outer circumferential surface of the brush housing 310 with respect to the brush holding ring 350; An abrasive material port 520, a washing water port 521, and a suction port 522, which are formed in the inner surface of the main body housing 110, respectively. The abrasive material port 520 and the suction pipe port 522 are formed on the lower end surface of the suction and discharge housing 210. The washing water port 521 is formed at one side of the washing water spray nozzle 230, An abrasive conveyance pipe 510 provided for connection between the abrasive conveyance pipe 510 and the abrasive conveyance pipe 510; A washing water transfer pipe 511 provided for connecting between the washing water ports 230; A dust suction pipe 512 provided for connection between the suction pipe ports 522; Wherein the abrasive conveyance pipe 510, the washing water conveyance pipe 511 and the dust suction pipe 512 are made of a flexible material and are formed on the floor in the middle of the dust suction pipe 512 formed outside A contaminated water suction pipe 530 provided to suck contaminated water at the same time; A suction pipe connecting port 540 provided between the contaminated water suction pipe 530 and the dust suction pipe 512; A contaminated water suction cap 531 provided at one side of the contaminated water suction pipe 530 so as to be able to suck large amount of contaminated water from the floor; A fixed cable 550 for bundling the abrasive conveyance pipe 510, the washing water conveyance pipe 511, and the collection suction pipe 512 together; And one side of the abrasive conveying pipe 510, the washing water transfer pipe 511 and the dust suction pipe 512 is connected to each port formed in the main body housing 110 and the other side is provided on the outside, A device conditioning and treatment unit 400 adapted to be connected to respective ports formed in the conditioning and treating unit 410 to suck the washing water and suck the dust; The control and treatment implement 410 includes a plurality of conveying wheels 413 at its lower end for movement and a control unit for controlling the abrasive, washing water supply and dust suction on the upper front surface of the regulation and treatment chamber 410 A control panel 411 provided; A main housing hook 412 mounted on a handle 130 formed on the main housing 110 to receive the main housing 110 on one side of the control and treatment housing 410; And further comprising:
In addition, an abrasive port 520, a wash water port 521, and a suction port 522 are provided on one side of the control and treatment chamber 410, and an inner surface of the control and treatment chamber 410 corresponding to the respective ports A polluted water tank 421 equipped with an abrasive port 520, a washing water port 521 and a suction pipe port 522 for storing polluted water sucked into the conditioning and treatment case 410; A washing water tank 430 for storing the washing water by regenerating the contaminated water to one side of the contaminated water tank 421; An abrasive tank 440 provided to store the abrasive material on one side of the wash water tank 430; A contaminated water suction pump 420 installed to suction dust and contaminated water into one side of the contaminated water tank 421; A sludge depositing box 438 for depositing sludge generated from the contaminated water on the bottom surface of the contaminated water tank 421; A sludge discharge pipe (439) provided to discharge the sludge deposited downward into the sludge deposit box (438) to the outside by opening and closing a valve; A contaminated water level sensor 435 for sensing the level of the polluted water sucked to the upper side of the inner surface of the contaminated water tank 421; A polluted water regeneration conveyance pipe 433 disposed inside the polluted water tank 421 at the upper outer side; And a polluted water regeneration filter 432 provided to filter the foreign substances in the polluted water to which the end of the polluted water regeneration transport pipe 433 is moved by being immersed in the polluted water. A washing water transfer pump 431 provided on the upper surface of the washing water tank 430 so that the contaminated water regenerated through the contaminated water regeneration transfer pipe 433 is converted into washing water and transferred to the washing water tank 430; A polluted water discharge pipe 437 provided outside the polluted water tank 421 through the control and processing unit 410 for discharging the polluted water stored in the polluted water tank 421 when the work is completed; And a polluted water filter 436 for filtering and discharging the polluted water at a starting point of the polluted water discharge pipe 437 or a place where the polluted water discharge pipe 437 is formed in the polluted water tank 421. A washing water sensor 434 for sensing the amount of washing water on the lower surface of the washing water tank 430 and informing the operator of the amount of washing water; An abrasive sensor 441 for sensing the amount of abrasive material on the lower surface of the abrasive tank 440 and informing the operator of the amount of the abrasive material; The compressed air generated in the air compression tank 450 is introduced into the washing water tank 430 connected to the compressed air transfer pipe 451 through the air compression tank 450, Is connected to the transfer pipe (511) and the abrasive material transfer pipe (510) of the abrasive tank (440), and is sprayed at a high pressure.
Also, a method for surface-treating the steel surface 30 using the steel surface treatment apparatus 10 includes a steel surface cleaning step S10 for cleaning the steel surface 30 with the primary cleaning water; (S20) attaching the sealing cap (330) provided on the main body housing (110) to the cleaned steel surface (30) so as to come into close contact with the cleaned steel surface (30); An abrasive material spraying and brushing step (S40) for spraying the abrasive material and simultaneously moving the main body housing (110) to brush the steel surface (30) through the brush (320); A dust suction step (S50) of sucking dust or foreign matter generated during the operation of the abrasive spraying and brushing step (S40) to the contaminated water tank (421); A washing water injection step (S60) for preventing scattering of dust generated during the operation of the abrasive material spraying and brushing step (S40); And a washing water spraying step (S60) for spraying the washing water at the time of generating a large amount of dust is performed, and the steel material surface treatment apparatus (10) The guide shaft 140 and the guide shaft stopper 142 are coupled to the main body housing 110 in order to provide the convenience of the operator during the surface treatment operation. A guide shaft adjustment step (S30) in which the main body case part (100) is fixed to the steel surface (30) so that the work can be smoothly moved by the rollers formed on the guide adjustment shaft (141); Is further included.

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The present invention has the following effects.

First, the surface of the steel and the inner or outer surface of the steel bridge or the surface of the ceiling and the bottom of the steel is treated with an abrasive, a brush or a power tool, .

Second, the dust sprayed during the surface treatment injects the washing water and protects the operator from the scattered dust by closely sealing / sealing the sealed cap to the surface of the surface, and provides the effect of facilitating the work with the built-in LED illumination .

Third, the polluted water generated after the operation is filtered and reused, and dust is collected and discharged to prevent environmental pollution.

Fourth, an auxiliary guide is provided on the surface treatment apparatus to provide an operator's convenience, thereby maximizing work efficiency.

1 and 2 are perspective views of a steel surface treating apparatus according to the present invention.
3 is a perspective view of still another embodiment of the steel surface treating apparatus of the present invention.
4 is an exploded view of the steel surface treating apparatus of the present invention.
5 is a sectional view of the steel surface treating apparatus of the present invention.
6 is a state view of the brush part of the surface treatment apparatus for the steel surface treatment apparatus of the present invention.
7 is a perspective view of the apparatus control and processing unit of the surface treatment apparatus for the steel surface treatment apparatus of the present invention.
8 is a cross-sectional view of the apparatus control and processing section of the surface treatment apparatus for the steel surface treatment apparatus of the present invention.
9 is a flow chart of the apparatus control and processing unit of the surface treatment apparatus for the steel surface treatment apparatus of the present invention.
10 is an operational state view of the surface treatment apparatus for the steel surface treatment apparatus of the present invention.
11 is another working state view of the surface treatment apparatus for the steel surface treatment apparatus of the present invention.
12 is a construction block diagram of a surface treatment method using the steel surface treatment apparatus of the present invention.

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

1 and 2 of the present invention are perspective views of a steel surface treatment apparatus, FIG. 3 is a perspective view of another embodiment of FIG. 1, and FIG. 4 is an exploded view of FIG.

Fig. 5 is a cross-sectional view of Fig. 1, Fig. 6 is a brush state view of Fig. 1, Fig. 7 is a cross-sectional view of the apparatus adjustment and processing section of Fig. 1, Is a flow chart for Fig.

FIG. 10 is an operational state view of the surface treatment apparatus of the present invention, FIG. 11 is another operation state diagram of FIG. 10, and FIG. 12 is a block diagram of a surface treatment method using the steel surface treatment apparatus of the present invention.

1 to 9, the present invention provides a steel surface treatment apparatus for surface treatment of a steel surface of a steel structure, comprising: a main body housing formed by a rectangular frame; and a plurality of guide grooves formed on an outer circumferential surface of the main body housing And a housing cover is provided on the opened side of the main housing, thereby forming a main body case part.

In addition, LEDs are provided on the side surface of the main body housing to provide convenience of operation during surface treatment and to brighten the worksite to enhance safety of work.

In addition, a suction and discharge housing is provided at the center of the housing cover, and a suction and discharge section including the suction and discharge housing is provided.

The present invention is further described in detail with reference to the drawings with reference to the accompanying drawings, in which a brush part is provided on the outer peripheral surface side of the suction and ejection part.

A suction and discharge housing groove is formed in the center of the housing cover so as to be coupled to the suction and discharge housing and a thread is formed on an inner surface of the suction and discharge housing groove and an outer surface of the suction and discharge housing to be assembled into a screw shape.

Further, the brush housing groove is formed such that the brush part is coupled to the outer circumferential side of the suction and discharge housing groove.

An injection nozzle groove is formed on the inner surface of the diagonal line of the suction and discharge housing grooves.

Further, the brush housing is coupled to the brush housing groove, so that the inner surface of the brush housing groove and the outer surface of the brush housing are threaded to be assembled into a screw shape.

A sealing cap made of a rubber material is formed on the brush housing, and the sealing cap is attached to the steel surface so as to be closely or hermetically sealed, so that dust or polluted water due to brushing does not leak out to the outside.

The brush part is basically provided with a brush, and the surface of the steel material is surface-treated by brushing. The brush part is replaced with a power device (grinder) according to the situation of the site, so that the brush part can be used by being coupled to the brush housing groove.

In addition, on the rear surface of the main body housing, a handle is provided for an operator to easily move and manipulate the main housing, and a guide groove formed on the side or rear surface of the main body housing is fixed to the ceiling surface and the bottom surface of the steel surface, A guide adjusting shaft is provided on the side auxiliary guide so as to be adjustable along a predetermined interval and a guide adjusting shaft is adjusted to be centered on the side auxiliary guide, .

As shown in the drawing, a washing water injection nozzle is provided on the outer circumferential surface of the upper portion of the suction and discharge housing to spray washing water on the steel surface, and the surface of the steel material is sprayed on the bottom surface of the suction and discharge housing, And the abrasive spray nozzle has a brush side as much as possible so that the abrasive material is not sucked together when the dust is inhaled.

A brush holding ring is provided on the inner side of the brush so as to fix the brush to the brush housing, and the brush holding ring is pressed on the outer circumferential surface of the brush housing about the brush holding ring, And an adjusting band is provided on the outer circumferential surface of the brush so as to be fixed between the stationary ring and the brush housing.

Accordingly, it is possible to unlock and lock according to the adjustment of the adjustment band, thereby facilitating replacement of the brush when it is worn.

As shown in the drawing, grooves are formed through an inner surface corresponding to one side of the main body housing, and each of the grooves has an abrasive port, a washing water port, and a suction port, and the abrasive port and the suction port are connected to the suction port And the bottom surface of the injection housing.

The washing water port is formed at one side of the washing water spray nozzle, and an abrasive conveying pipe is provided for connection between the abrasive pot ports, and a washing water conveying pipe is provided to connect the washing water ports.

In addition, a dust suction pipe is provided to connect between the suction pipe ports, and the abrasive material transfer pipe, the washing water transfer pipe, and the dust suction pipe are made of flexible material so that they can be used regardless of the work space.

The present invention comprises a contaminated water suction pipe for sucking contaminated water formed on the floor at the middle of a dust suction pipe formed outside, and a suction pipe connecting port between the contaminated water suction pipe and the dust suction pipe is provided.

A contaminated water suction cap is provided on one side of the contaminated water suction pipe so that the contaminated water on the floor can be sucked in bulk, and the abrasive material transfer pipe, the washing water transfer pipe, and the dust suction pipe formed outside are bundled together through a fixed cable .

One end of the abrasive conveying pipe, the washing water transfer pipe and the dust suction pipe is connected to an abrasive port, a washing water port and a suction pipe port formed in the main body housing, and the other side is provided on the outside to adjust and supply abrasive, washing water, A washing water port, and a suction pipe port, which are formed in the processing, and the device control and processing unit is performed.

As shown in the drawings, the control and processing of the present invention includes a plurality of conveying wheels at a lower end so as to be movable, and the control and processing is carried on a vehicle, Is used to move and use.

In addition, a control panel having a control unit for controlling the abrasive, washing water, and dust suction is provided on the upper surface of the control and treatment chamber, and a control panel is installed on the main body housing And a main housing hook is provided so that a handle formed thereon is held.

In addition, an abrasive port, a washing water port, and a suction port port are provided on one side of the adjustment and treatment, and an abrasive port, a washing water port, and a suction port are provided on the inner surface of the conditioning and processing port corresponding to each port, A contaminated water tank is provided to store polluted water sucked into the conditioning and treating compartment and a washing water tank is provided to recover the polluted water to one side of the polluted water tank to store the cleaned water.

Further, an abrasive tank is provided to store the abrasive material on one side of the washing water tank.

As shown in the figure, a contaminated water suction pump is provided to suck dust and polluted water to one side of the polluted water tank, and the polluted water suction pump is made to be a vacuum pump to serve as a vacuum pump.

A sludge discharge pipe is provided to deposit sludge generated in the contaminated water on the bottom surface of the contaminated water tank and a sludge discharge pipe to discharge the sludge deposited on the sludge deposit side to the outside by opening and closing a valve .

In addition, a contaminated water level sensor is provided to sense the level of the polluted water sucked to the upper side of the contaminated water tank, and the operation of the contaminated water level sensor is informed to the operator through the control panel.

In addition, a polluted water regeneration conveying pipe is provided in the upper part of the inside of the contaminated water tank, and the end of the polluted water regeneration conveying pipe is sucked by the polluted water to absorb the polluted water. And a polluted water regeneration filter is provided at the end of the pipe.

In addition, a washing water transfer pump is provided on the upper surface of the washing water tank so that the contaminated water regenerated through the contaminated water regeneration transfer pipe is converted into washing water and transferred to the washing water tank.

A polluted water discharge pipe is provided through one end of the contaminated water tank to discharge polluted water stored in the polluted water tank to discharge the polluted water to the outside, and a polluted water discharge pipe groove is formed in the polluted water discharge pipe starting point or the polluted water tank And a polluted water filter is provided so as to filter and discharge polluted water.

The polluted water filter is a semi-permanent filter that can be reused and is made of a mesh-shaped filter.

In addition, a washing water sensor is provided to sense the amount of washing water on the lower surface of the washing water tank and inform the operator through the control panel. An abrasive sensor is provided to sense the amount of the abrasive material on the lower surface of the abrasive tank, .

Accordingly, when the washing water or the abrasive is less than the set value on the control panel, it is made to inform the operator to replenish the washing water and the abrasive.

The compressed air generated from the air compression tank is connected to the washing water transfer pipe of the washing water tank connected to the compressed air transfer pipe and the abrasive material transfer pipe of the abrasive tank, So that the abrasive material and the washing water are sprayed.

In the above description, the combination of the structure and the structure of the present invention has been described. Hereinafter, a surface treatment method using the steel surface treatment apparatus will be described with reference to FIG.

A method for surface treatment of a steel material surface using the steel material surface treatment apparatus of the present invention is characterized in that a steel material surface washing step for removing foreign matter with primary washing water is performed on the steel material surface, A sealing cap attaching step for sealing the sealing cap is performed.

In addition, the abrasive material spraying and brushing steps are performed by spraying the abrasive material and simultaneously moving the body housing through the brush to brush the steel material surface. The dust or foreign matter generated during the abrasive material spraying and brushing step work is transferred to the contaminated water tank A dust suction step is carried out for suction to move.

In the dust suction step, dust suction is carried out through a contaminated water suction pump installed inside the regulation and treatment chamber.

The washing water is sprayed through the washing water spray nozzle to prevent scattering of dust generated during the abrasive material spraying and brushing step operations. The abrasive material spraying and brushing step and the dust suction step are performed at the same time, And a washing water spraying step for spraying wash water when dust is generated.

In order to provide the convenience of the operator during the surface treatment operation by using the steel surface treatment apparatus, a side auxiliary guide, a guide adjusting shaft and a guide shaft stopper are provided in the main body housing, The guide shaft adjustment step is further performed to fix the case part so that the guide shaft can be easily moved by the roller formed on the guide adjustment shaft.

The guide shaft adjustment step is performed after the sealing cap attaching step.

10: Steel surface treatment apparatus 20: LED
20: Steel surface
100: Body case part
110: main body housing 111: guide groove
120: Housing cover 121: Brush housing groove
122: suction and injection housing groove 123: injection nozzle groove
130: Handle 140: Side assistance guide
141: guide adjusting shaft 142: guide shaft stopper
200: suction and dispensing part 210: suction and dispense housing
220: inlet port 230: wash water spray nozzle
240: abrasive spray nozzle
300: Brush part 310: Brush housing
320: Brush 330: Sealed cap
340: Adjustable band 350: Brush retaining ring
400: Device control and processing unit 410: Controlled and processed
411: Control panel 412: Main housing hook
413: Transfer wheel 420: Contaminated water suction pump
421: Polluted water tank 422: Dust filter
423: exhaust fan 430: wash water tank
431: Wash water transfer pump 432:
433: contaminated water regeneration conveyance pipe 434: wash water sensor
435: Pollution water level sensor 436: Polluted water filter
437: Pollution water discharge pipe 438: Sludge deposition
439: sludge discharge pipe 440: abrasive tank
441: Abrasive material sensor 450: Air compression tank
451: Compressed air transfer pipe
500: transfer part 510: abrasive conveying pipe
511: wash water transfer pipe 512: dust suction pipe
520: abrasive port 521: wash water port
522: Suction pipe port 530: Polluted water suction pipe
531: Contaminated water suction cap 540: Suction pipe connection port
550: Fixed cable

Claims (17)

A main body housing 110 formed by a rectangular frame and a plurality of guide grooves 111 formed on an outer circumferential surface of the main body housing 110, (100) having a housing cover (120) provided on the opened side of the housing cover (120); And a suction and dispensing part 200 including a suction and dispense housing 210 in which a suction port 220 is formed at the center of the housing lid 120. The suction and dispensing part 200 is coupled to the housing lid 120, A brush part 300 provided on an outer circumferential surface of the jet part 200; A suction and discharge housing groove 122 formed in the center of the housing cover 120 to be coupled to the suction and discharge housing 210; A brush housing groove 121 formed to surround the brush portion 300 around the suction and discharge housing groove 122; An injection nozzle groove 123 formed on the inner surface of the diagonal line of the suction and discharge housing groove 122; A handle 130 provided on the rear surface of the main body housing 110 for an operator to operate the main body housing 110; A side auxiliary guide 140 coupled to the guide groove 111 to support the main housing 110; A guide adjusting shaft 141 coupled to the side auxiliary guide 140 and adjustable according to the gap; A guide shaft stopper 142 formed at one side of the guide adjusting shaft 141 to fix the guide adjusting shaft 141 adjusted by the side auxiliary guide 140; A washing water spray nozzle 230 provided to spray the washing water onto the steel surface 30 on the upper outer circumferential surface of the suction and dispense housing 210; An abrasive spray nozzle 240 configured to spray an abrasive material on the inner bottom surface of the suction and discharge housing 210 for spraying on the steel surface 30 to perform a surface treatment; In the steel surface treatment apparatus (10)
An LED (20) provided on the side surface of the main body housing (110) so as to provide convenience of work during a surface treatment work;
Wherein the steel surface treatment apparatus is made of steel.
delete delete delete The method according to claim 1,
A brush housing 310 coupled to the brush housing groove 121; A sealing cap 330 formed of a rubber material on the brush housing 310 and adapted to be in close contact with or close to the steel surface 30; A brush 320 is provided on the inner surface of the brush housing 310 and a brush fixing ring 350 provided inside the brush 320 for fixing the brush 320 to the brush housing 310, ; An adjusting band 340 for generating and fixing a pressure at the outer circumferential surface of the brush housing 310 with respect to the brush holding ring 350; An abrasive material port 520, a washing water port 521, and a suction port 522, which are formed in the inner surface of the main body housing 110, respectively. The abrasive material port 520 and the suction pipe port 522 are formed on the lower end surface of the suction and discharge housing 210. The washing water port 521 is formed at one side of the washing water spray nozzle 230, An abrasive conveyance pipe 510 provided for connection between the abrasive conveyance pipe 510 and the abrasive conveyance pipe 510; A washing water transfer pipe 511 provided for connecting between the washing water ports 230; A dust suction pipe 512 provided for connection between the suction pipe ports 522; Wherein the abrasive conveyance pipe 510, the washing water conveyance pipe 511 and the dust suction pipe 512 are made of a flexible material and are formed on the floor in the middle of the dust suction pipe 512 formed outside A contaminated water suction pipe 530 provided to suck contaminated water at the same time; A suction pipe connecting port 540 provided between the contaminated water suction pipe 530 and the dust suction pipe 512; A contaminated water suction cap 531 provided at one side of the contaminated water suction pipe 530 so as to be able to suck large amount of contaminated water from the floor; A fixed cable 550 for bundling the abrasive conveyance pipe 510, the washing water conveyance pipe 511, and the collection suction pipe 512 together; Lt; / RTI &gt;
One side of the abrasive conveyance pipe 510, the washing water transfer pipe 511 and the dust suction pipe 512 is connected to each port formed in the main body housing 110 and the other side is provided on the outside to supply and supply the abrasive, A device conditioning and treatment unit 400 adapted to be connected to respective ports formed in the conditioning and treating unit 410 to suck the dust;
The control and treatment implement 410 includes a plurality of conveying wheels 413 at its lower end for movement and a control unit for controlling the abrasive, washing water supply and dust suction on the upper front surface of the regulation and treatment chamber 410 A control panel 411 provided;
A main housing hook 412 mounted on a handle 130 formed on the main housing 110 to receive the main housing 110 on one side of the control and treatment housing 410;
Wherein the steel surface treatment apparatus further comprises:
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An abrasive port 520, a wash water port 521 and an aspiration port 522 are provided on one side of the control and treatment chamber 410 and an abrasive port A polluted water tank 421 provided to store the polluted water sucked into the regulation and treatment chamber 410, a water washing port 520, a washing water port 521, and a suction pipe port 522; A washing water tank 430 for storing the washing water by regenerating the contaminated water to one side of the contaminated water tank 421; An abrasive tank 440 provided to store the abrasive material on one side of the wash water tank 430; A contaminated water suction pump 420 installed to suction dust and contaminated water into one side of the contaminated water tank 421; A sludge depositing box 438 for depositing sludge generated from the contaminated water on the bottom surface of the contaminated water tank 421; A sludge discharge pipe (439) provided to discharge the sludge deposited downward into the sludge deposit box (438) to the outside by opening and closing a valve; A contaminated water level sensor 435 for sensing the level of the polluted water sucked to the upper side of the inner surface of the contaminated water tank 421; A polluted water regeneration conveyance pipe 433 disposed inside the polluted water tank 421 at the upper outer side; And a polluted water regeneration filter 432 provided to filter the foreign substances in the polluted water to which the end of the polluted water regeneration transport pipe 433 is moved by being immersed in the polluted water. A washing water transfer pump 431 provided on the upper surface of the washing water tank 430 so that the contaminated water regenerated through the contaminated water regeneration transfer pipe 433 is converted into washing water and transferred to the washing water tank 430; A polluted water discharge pipe 437 provided outside the polluted water tank 421 through the control and processing unit 410 for discharging the polluted water stored in the polluted water tank 421 when the work is completed; And a polluted water filter 436 for filtering and discharging the polluted water at a starting point of the polluted water discharge pipe 437 or a place where the polluted water discharge pipe 437 is formed in the polluted water tank 421. Lt; / RTI &gt;
A washing water sensor 434 for sensing the amount of washing water on the lower surface of the washing water tank 430 and informing the operator of the amount of washing water;
An abrasive sensor 441 for sensing the amount of abrasive material on the lower surface of the abrasive tank 440 and informing the operator of the amount of the abrasive material;
An air compression tank 450 is provided at one side of the regulation and treatment unit 410,
The compressed air generated in the air compression tank 450 is connected to the washing water transfer pipe 511 of the washing water tank 430 connected to the compressed air transfer pipe 451 and the abrasive material transfer pipe 510 of the abrasive tank 440 So as to be sprayed at a high pressure.
delete delete delete delete The method according to claim 1,
As a method for surface-treating the steel surface 30 by using the steel surface treatment apparatus 10,
A steel surface cleaning step S10 for cleaning the steel surface 30 with the primary cleaning water;
(S20) attaching the sealing cap (330) provided on the main body housing (110) to the cleaned steel surface (30) so as to come into close contact with the cleaned steel surface (30);
An abrasive material spraying and brushing step (S40) for spraying the abrasive material and simultaneously moving the main body housing (110) to brush the steel surface (30) through the brush (320);
A dust suction step (S50) of sucking dust or foreign matter generated during the operation of the abrasive spraying and brushing step (S40) to the contaminated water tank (421);
A washing water injection step (S60) for preventing scattering of dust generated during the operation of the abrasive material spraying and brushing step (S40); Lt; / RTI &gt;
The abrasive spraying and brushing step S40 and the dust suction step S50 are simultaneously performed and the washing water spraying step S60 for spraying the washing water when a large amount of dust is generated is performed,
The side surface auxiliary guide 140, the guide adjusting shaft 141 and the guide shaft stopper 142, which are coupled to the main body housing 110, are used to provide the operator's convenience during the surface treatment operation using the steel surface treatment apparatus 10, A guide shaft adjusting step (S30) in which the main body case part (100) is fixed to the upper and lower steel surfaces (30) so that the work can be smoothly performed by the rollers formed on the guide adjusting shaft (141) ;
Wherein the surface treatment apparatus further comprises a surface treatment apparatus for treating a steel surface.
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