KR20120058791A - Surface treatment unit - Google Patents

Abstract

PURPOSE: A surface treatment unit is provided to clearly remove rust or foreign material by hitting a steel plate or a steel pipe because multiple teeth contacts with a top surface of the steel plate or an inner surface of the steel pipe, thereby improving plating quality of the steel plate. CONSTITUTION: A surface treatment unit(10) comprises a shaft hole portion(11) and a hitting portion(12). The surface treatment unit is guided to a fixing shaft through the shaft hole portion. The hitting portion is formed in one end based on the shaft hole portion. Based on the shaft hole portion, one side of one end of the hitting portion is formed into a curved shape and the other side of the hitting portion is formed into a saw teeth shape. The shaft hole portion can move from the fixing shaft.

Description

Surface treatment unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a surface treatment unit. More particularly, the present invention relates to a surface treatment unit for removing and coloring corrosion products such as existing coatings attached to inner surfaces of steel sheets or steel pipes, and rust or foreign substances generated on machine surfaces. In the surface treatment apparatus used for the work (dint blasting effect), it is installed at the front of the working direction of the apparatus and hits the target surface of the working surface with a simple rotational force, thereby improving the unit to form a rough surface advantageous for painting work. Minimize damage to each part of the surface treatment unit that is worn by the strong frictional force when forming the rough surface from the surface to be worked on, improve the quality of steel plate plating, and increase workability by increasing the replacement time of the surface treatment unit. A surface treatment unit to improve.

In general, cast iron pipes or steel pipes are used for water pipes and gas pipes that are buried underground. When these tubes are used for a long time, the existing coating adhered to the inside of the pipe is peeled off, and rust or scale is deposited inside the pipe to contaminate the sewage supplied through the inside of the pipe. The mixed sewage is prevented from being supplied to each household, so the amount of supply is reduced.In the case of water pipes, rust generated by internal corrosion is mixed with water to contaminate water, and in the case of gas pipes, holes are formed due to corrosion. This will cause gas leakage.

To prevent these problems, remove corrosion products such as rust, scale, etc. generated by corrosion on the inner circumferential surface of the steel pipe or the surface of the steel sheet, brush them smoothly, and sand them so that the paint is applied well on the inner circumferential surface of the steel pipe or the surface of the steel sheet. A blasting apparatus is used to achieve the blasting effect.

The blasting apparatus is configured to be able to travel from the inner circumferential surface of the steel pipe to be worked or the surface of the steel sheet is subjected to the surface treatment as described above.

1 and 2, a plurality of spacing members 200 and fixed blocks 30 are combined with the rotating shaft 1, and each of the fixed blocks 300 is one fixed. The shaft 400 penetrates to face each other, and the surface treatment unit 100 is installed on the fixed block 300 through which the fixed shaft 400 penetrates.

The surface treatment unit 100 is formed of a plate body, the shaft hole 110 is formed on one side to be guided to the fixed shaft 400, the hitting portion 120 at one end based on the shaft hole 110 A plurality of shaft holes 110 are formed to be movable from the fixed shaft 400 to be installed in close contact with each other.

 The operation of performing the operation using the surface treatment unit configured as described above will be described briefly as follows.

 The surface treatment unit has a centrifugal force according to the rotation of the rotating shaft 1 from the fixed shaft 400 of each fixed block 300 to the surface of the inner diameter of the steel pipe or the upper surface of the steel sheet to be the work target surface as the rotary shaft 1 is driven. It is to paint in the form of finely scratching foreign materials and surfaces while hitting the work surface.

In the conventional surface treatment unit as described above, the inner surface of the steel pipe or the surface and the striking portion of the steel pipe in the process of removing the scale and forming the rough surface while the striking portion 120 of the plate hitting the working surface of the steel pipe or steel plate in rotation Although the surface is in contact with the rough, but a certain portion in contact with the end of the hitting portion hitting the conventional hitch has a problem that can not perform a dense rough.

In order to achieve the object of the present invention as described above, an object of the present invention is to provide a surface treatment apparatus used for surface work (dint blasting effect) performed for coloring a paint on the inner circumferential surface of a steel pipe or the surface of a steel sheet. When the surface is formed from the surface to be worked on by improving the surface treatment unit which is installed at the head of the working direction of the apparatus and which, as a rotational force, rubs the surface to be worked on to form a rough surface advantageous for the painting work, It is to provide a surface treatment unit that minimizes damage to each part of the surface treatment unit due to the instantaneous frictional force and enables more dense and effective roughening work.

The present invention for achieving the object of the present invention as described above

Spacer members are installed from the rotating shaft of the blasting apparatus, and a plurality of fixed blocks are repeatedly installed alternately between the spaced members, and the fixed shafts penetrating the fixed blocks are coupled to the fixed plates provided at both ends of the rotating shafts, and fixed to the fixed members. In the surface treatment unit is provided between the shaft, the surface treatment unit for painting the steel pipe and steel sheet by the centrifugal force generated in the rotating shaft,

The surface treatment unit has a shaft hole is formed on one side to be guided to the fixed shaft, one end is formed in one end based on the shaft hole, the one side is formed in a curved form based on the side hole, the side hole The other side once opposed to one side is formed in the form of a tooth having a plurality of teeth, it is characterized in that the axial hole portion from the fixed shaft is installed in close contact with a plurality of flowable.

In addition, the shaft hole is characterized in that it has a free flow width (s) greater than the diameter of the fixed shaft.

In addition, the hitting portion is characterized in that formed in the form of a tooth having a plurality of teeth circumscribed at one end on the basis of the shaft hole.

In addition, the hitting portion is a surface treatment unit, characterized in that formed in the form of a tooth having a plurality of teeth on one side of both ends on the basis of the shaft hole.

The striking portion is characterized in that formed in the form of a tooth having a plurality of teeth on the outer periphery relative to the shaft hole.

On the other hand, the spacing member is installed from the rotating shaft of the blasting apparatus, a plurality of fixed blocks are alternately installed between the spacing members alternately, the fixed shaft penetrating the fixing block is coupled to the fixed plate provided on both ends of the rotating shaft, In the surface treatment unit is provided between the fixed shaft, the surface treatment unit for painting the steel pipe and steel plate by the centrifugal force generated in the rotating shaft,

A plurality of surface treatment units installed on the fixed shaft is composed of a tooth-shaped striking portion having a plurality of teeth having a predetermined length from both ends, a first shaft hole formed along the longitudinal direction from the striking portion, and a second shaft hole It is characterized by.

In addition, the fixed shaft is installed radially around the rotation axis of the fixed plate divided into a first fixed shaft and a second fixed shaft, the first axis and the second axis of the surface treatment unit in the loose form respectively free flow Characterized in that it is configured to be penetrating support in the state of the width (S).

The present invention as described above is inserted while having a free flow width in the form of a loose shaft shaft from the fixed shaft installed on the fixed block that is rotated by the rotary shaft, and once on one side and both sides from the shaft hole and the shaft hole By installing a plurality of surface treatment units formed with a hitting part having two teeth, the hitting part hits the surface to be worked while being held in a sawtooth shape from the fixed shaft by the centrifugal force due to the rotation of the rotating shaft, and the impact generated from the shaft is fixed from the fixed shaft. It is possible to repeat the action canceled by the flow width of the ball, to mitigate the impact applied to the surface treatment unit, and because it is a tooth shape having a plurality of teeth, the multiple teeth contact with the upper surface of the steel sheet or the inner surface of the steel pipe Foreign matters on existing coatings or generated rust or machine surface Because and can be the other hand, more and more densely roughened surface work, such that the more thoroughly remove the corrosion products, etc., improved quality coated steel sheet, it is possible to obtain a maximum of dinteu blasting effect.

In addition, by having a tooth-shaped striking part having a plurality of teeth having a predetermined length from both ends of the surface treatment unit, when the unit itself used at one end wears out or reaches the end of its life, it is recyclable by using the other end unit This will greatly reduce the burden.

1 is a perspective view showing a conventional surface treatment unit.
Figure 2 is a front view showing the main part of the dint blasting apparatus is applied to the conventional surface treatment unit.
Figure 3a is a perspective view of a surface treatment unit according to the present invention.
3B is a perspective view of a second type surface treatment unit according to the present invention;
3C is a perspective view of a third form surface treatment unit according to the present invention;
3D is a perspective view of a fourth form surface treatment unit according to the present invention;
Figure 4 is a side cross-sectional view showing a state before operation of the surface treatment unit according to the present invention.
Figure 5 is a side cross-sectional view showing an operating state of the surface treatment unit according to the present invention.
FIG. 6 is an enlarged view illustrating a state in which the surface treatment unit of FIG. 5 is operated before friction;
FIG. 7 is an enlarged view illustrating a state of operation after friction of the surface treatment unit of FIG. 6; FIG.
8 is a perspective view showing an installation example of the surface treatment unit according to the present invention.
9 is a perspective view showing a surface treatment unit according to the present invention for a second embodiment;
10 is an enlarged view illustrating an operating state of the surface treatment unit according to the present invention for the second embodiment.
11 is a front view illustrating a state in which the repulsive force received by the surface treatment unit according to the present invention for the second embodiment is dispersed.
12 is a perspective view showing an installation example of the surface treatment unit according to the present invention for the second embodiment.

Hereinafter, the configuration of the present invention with reference to the accompanying drawings in more detail as follows.

Spacer member 2 is installed on the rotating shaft 1 of the blasting apparatus, and a plurality of fixed blocks 3 are alternately installed between the spaced member 2 and penetrate the fixed block 3. The fixed shaft 4 is coupled to the fixed plate 5 provided at both ends of the rotating shaft 1, and is installed between the fixed shaft 4, the painting work of the steel pipe and steel plate by the centrifugal force generated in the rotating shaft (1) In the surface treatment unit 10 that performs the

The surface treatment unit 10 has a shaft hole 11 is formed on one side so as to be guided to the fixed shaft (4), the impact portion 12 is formed at one end based on the shaft hole 11, the impact portion ( 12 is one side is formed in a curved form on the basis of the axial hole 11, the other side opposite to one side on the basis of the side hole 11 is formed in a sawtooth shape having a plurality of teeth, the fixed shaft ( From 4) is characterized in that the shaft hole 11 is installed in close contact with a plurality of flowable.

As described above, the surface treatment unit 10 is formed of a plate body, and thus, the surface treatment unit 10 formed of steel wire prevents warpage due to the impact applied during the surface treatment operation, and is damaged due to the continuous operation. There is an effect that can prevent.

The shaft hole 11 has a free flow width (S) larger than the diameter of the fixed shaft (4), when the striking portion 12 hits the work surface by the centrifugal force generated in the rotation of the rotating shaft (1), The shock generated by this function to mitigate the impact from the fixed shaft (4) to the free flow width (S) of the shaft hole (11).

In particular, the gist of the present invention shown in Figure 3 in detail,

First, as shown in Figure 3a, the surface treatment unit 10 has a shaft hole 11 is formed on one side, the impact portion 12 is formed at one end based on the shaft hole 11, the impact portion 12 is one side is formed in a curved form on the basis of the side hole 11, the other side opposite to one side on the basis of the side hole 11 is formed in a sawtooth shape having a plurality of teeth, the fixed shaft A plurality of shaft holes 11 are inserted from the (4) so as to be flowable to perform a surface treatment function.

On the other hand, as shown in Figure 3b, the surface treatment unit 10 has a shaft hole 11 is formed on one side, the impact portion 12 is formed at one end based on the shaft hole 11, the impact portion (12) is formed in the form of a tooth having a plurality of teeth circumscribed at one end with respect to the shaft hole 11, the surface of the shaft hole 11 is inserted into the plurality of the shaft hole (11) flowable Perform the function.

" 형태를 갖는 축공부(11)가 형성되고, 축공부(11)를 기준으로 일단에 타격부(12)가 형성되되, 상기 타격부(12)는 상기 축공부(11)를 기준으로 양단 일측에 다수개의 이를 가진 톱니형태로 형성되고, 상기 고정축(4)으로부터 축공부(11)가 유동가능하게 다수 개 끼워져 표면처리 기능을 수행한다.Meanwhile, as shown in FIG. 3C, the center of the surface treatment unit 10b is "

"Shaft hole 11 having a shape is formed, the impact portion 12 is formed at one end with respect to the shaft hole 11, the impact portion 12 is one end of both sides relative to the shaft hole (11) It is formed in the form of a tooth having a plurality of teeth, and a plurality of shaft holes (11) from the fixed shaft (4) to be flowable to perform a surface treatment function.

" 형태를 갖는 축공부(11)가 형성되고, 축공부를 기준으로 일단에 타격부가 형성되되, 상기 타격부(12)는 상기 축공부(11)을 기준으로 외주연에 다수개의 이를 가진 톱니형태로 형성되고, 상기 고정축(4)으로부터 축공부(11)가 유동가능하게 다수 개 끼워져 표면처리 기능을 수행한다.On the other hand, as shown in Fig. 4D, the center of the surface treatment unit 10d is "

"Shaft hole (11) having a form is formed, the impact portion is formed at one end relative to the shaft hole, the impact portion 12 has a tooth shape having a plurality of teeth on the outer circumference relative to the shaft hole (11) And a plurality of shaft holes 11 are fluidly inserted from the fixed shaft 4 to perform a surface treatment function.

The surface treatment units 10, 10A, 10B, and 10C as described above have a surface roughening operation in which the striking portion 12 of the conventional surface treatment unit contacts only a portion of the upper surface of the steel sheet or the inner surface of the steel pipe. In order to improve the surface roughly by contacting and hitting the foreign matter attached to the work surface to be surface-treated in the form of teeth having a plurality of teeth in various parts, it is possible to roughen more densely.

Referring to the first embodiment using the surface treatment unit 10 of the present invention configured as described above is as follows.

 First, the surface treatment unit 10 has a surface on the fixed shaft 4 between the fixed blocks 3 provided with the spacer member 2 interposed therebetween in the vertical and horizontal directions with respect to the rotation axis 1 of the dint blasting apparatus. It is provided through the processing unit 10.

The fixing block 3 is installed in the same manner as in FIGS. 4, 5, and 9, and the shaft hole 11 constituting the surface treatment unit 10 is provided in each of the fixed shafts 4. The dog is inserted and installed, and as shown in FIG. 4, the striking part 12 starts working in a state in which all are directed downward.

The surface treatment work performed simultaneously with traveling from the inner circumferential surface of the steel pipe or the surface of the steel plate through the dint blasting driving device is performed by the shaft hole portion of the surface treatment unit from the fixed shaft 4 of each fixed block 3 as shown in FIG. 11) is a centrifugal force according to the rotation of the rotary shaft 1 to form a rough surface advantageous for painting work in the form of finely scratching foreign matter and surface while hitting the work target surface by each hitting portion 12. .

The process of rubbing the end portion of the striking portion 12 as a centrifugal force instantaneously from the surface to be worked is as shown in FIG. 6. ), It is pushed out of the fixed shaft 4 after the momentary collision.

This is an operation in which the end portion of the hitting portion 12 hit by the work surface is pushed away from the fixed shaft 4 by the entire shaft hole 11 portion after a temporary impact, and the impact applied to the surface treatment unit 10 is canceled. Unlike the conventional surface treatment unit which is fixed from the fixed shaft (4) as described above, there is an impact reduction effect.

The movement of the shaft hole 11 from the fixed shaft 4 is performed by all the surface treatment units 10 on the fixed shaft 4 in which the end of the striking portion 12 deviates after the impact from the surface to be worked. Work simultaneously.

Since the width of the shaft hole portion 11 flowing from the fixed shaft 4 has a free flow width S larger than the diameter of the fixed shaft 4, the shock transmitted to the shaft hole portion 11 which is momentary enough to cancel the phase difference. ) To prevent damage to the shaft hole 11 and the striking portion 12.

As described above, the operation mode is adjusted in the free flow width s through the shaft hole 11 as shown by the dashed-dotted lines shown in FIGS. 5 to 7, and is substantially rotated beyond the 12 o'clock position with reference to FIG. The processing unit 10 is a centrifugal force according to the rotation of the rotary shaft 1, and as shown in FIG. 7, one side of the shaft hole 11 is naturally fixed to the fixed shaft 4 in the form of being fixed to the fixed shaft 4. It is a continuous operation that returns to the straight line from the phase and strikes the surface to be worked again, thereby performing the surface treatment operation without damage.

In addition, as shown in Figure 8, in the price of the work target surface, the shaft hole 11 has a free flow width (s) with respect to the fixed shaft 4, the work target surface and the striking portion ( 12) can adjust the contact distance, more effectively hit the existing coating on the surface of the curved steel pipe or steel plate due to the external pressure or the corrosion products such as rust or foreign matter generated on the machine surface It is to have the advantage that can be removed.

Hereinafter, the structure and the second preferred embodiment of the surface treatment unit 10 according to the present invention will be described.

Spacer member 2 is installed on the rotating shaft 1 of the blasting apparatus, and a plurality of fixed blocks 3 are alternately installed between the spaced member 2 and penetrate the fixed block 3. The fixed shaft 4 is coupled to a fixed plate provided at both ends of the rotating shaft, and is installed between the fixed shaft 4, the surface treatment unit for painting the steel pipe and steel plate by the centrifugal force generated in the rotating shaft (1) In (10),

The surface treatment unit 10, which is installed on the fixed shaft 4, is provided with a tooth-shaped striking portion 22, 22 ′ having a plurality of teeth having a predetermined length from both ends, and the striking portion 22 ( And a first shaft hole 21a and a second shaft hole 21b formed along the longitudinal direction.

 The diameter of the first shaft hole (21a) and the second shaft hole (21b) is made larger than the diameter of the fixed shaft (4) to have a free flow width (S).

 As shown in FIG. 12, in the surface treatment unit 10, shaft holes 21 and 21 ′ are formed along the length direction from the striking part, and once the shaft processing parts 21 and 21 ′ are referenced. A tooth-shaped striking part 22 (22 ') is formed therein, so that a plurality of shaft holes 21 (21') can be inserted from the fixed shaft (4) to perform a surface treatment function.

In the surface treatment unit 10, rust or corrosion products generated on the inner circumferential surface of the steel pipe or the surface of the steel sheet are firstly removed by the tooth-shaped striking portion 22-2 formed at one end thereof. By removing the striking portion 22-1 again, the effect of a more dense rough surface work can be obtained.

In addition, providing the striking portion 22 ′ at one end of the surface treatment unit 10 opposite to the striking portion 22 may not be worn or performed due to the continuous roughening operation of the striking portion 22. If this is not possible, it can be simply used instead of the hitting portion 22 ', so as to obtain a more economic effect.

Referring to the second embodiment using the surface treatment unit 10 of the present invention configured as described above is as follows.

 First, the surface treatment unit 10 is a surface treatment on the fixed shaft (4) between the fixed block (3) provided with the spacer member (2) in the vertical and horizontal direction with respect to the rotation axis (1) of the blasting apparatus. It is provided through the unit 10.

The fixing block 3 is installed as shown in FIG. 13. The first shaft 21a and the second shaft 21b constituting the surface treatment unit 10 are respectively fixed shafts 4. The penetrating portion 22 penetrates loosely to the first fixed shaft 4a and the second fixed shaft 4b, respectively, and the striking portion 22 has a first fixed shaft 4a and a second fixed shaft 4b. Work begins in the state penetrated.

The first fixing shaft 4a and the second fixing shaft 4b which penetrate the fixing block 3 are rotated by the fixing plate 5 so that the striking portion 12 of each surface treatment unit 10 is subjected to work. It strikes the surface and forms a rough surface favorable for painting work in the form of finely scratching foreign substances and surfaces.

One end of the hitting portion 22 in a plurality of teeth form the impact on the inner circumferential surface of the steel pipe or the surface of the steel sheet instantaneously when colliding with the object to form the rough surface (粗 面) as necessary, and then the first fixed The impact on the repulsive force is primarily absorbed by the first shaft hole 21a penetrated with respect to the shaft 4a and the second fixed shaft 4b. The surface treatment unit 10 generates a repulsive force after friction in a range that does not deviate from the first fixed shaft 4a and the second fixed shaft 4b as shown by the dashed-dotted line illustrated in FIG. 11.

In addition, the first shaft hole 21a of the surface treatment unit 10 gradually cancels the repulsive force generated while striking the work target surface, and is gradually canceled by the first shaft hole 21a. The applied force is transmitted to the second shaft hole portion 21b, and the repulsive force is gradually canceled again through the second shaft hole portion 21b, thereby exerting a surface treatment unit on the striking portion 22 by collision friction ( It is possible to relatively prevent the warpage of 10) or breakage occurring in the first and second shaft holes 21a and 21b and the striking part 22.

In particular, the above-described counteraction of the repulsive force is applied to the first shaft hole 21a and the second shaft hole 21b of the surface treatment unit 10 on the first fixed shaft 4a and the second fixed shaft 4b. ) Is penetrated in a state in which there is a free flow width S in a loose shape, and the shock is alleviated on the first fixed shaft 4a and the second fixed shaft 4b, and at the same time, Force is distributed in various directions as in the direction of the arrow, thereby minimizing damage to the surface treatment unit 10.

1: rotating shaft
2: spacer
3: fixed block
4: fixed shaft (4a: 1st fixed shaft, 4b: 2nd fixed shaft)
5: fixed plate
10: surface treatment unit (10A, 10B, 10C)
ll, 21: shaft study {lla (21a): first shaft study, 11b (21b): second shaft study}
12,22: Strike Part {22-1,22-2}

Claims (7)

Spacer member 2 is installed on the rotating shaft 1 of the blasting apparatus, and a plurality of fixed blocks 3 are alternately installed between the spaced member 2 and penetrate the fixed block 3. The fixed shaft 4 is coupled to the fixed plate 5 provided at both ends of the rotating shaft 1, and is installed between the fixed shaft 4, the painting work of the steel pipe and steel plate by the centrifugal force generated in the rotating shaft (1) In the surface treatment unit 10 that performs the
The surface treatment unit 10 has a shaft hole 11 is formed on one side to be guided to the fixed shaft (4), the impact portion 12 is formed at one end based on the shaft hole 11, the impact portion One side is formed in a curved form once on the basis of the study (11), the other side opposite to one side on the basis of the side hole 11 is formed in the form of a tooth having a plurality of teeth, the shaft from the fixed shaft (4) Surface treatment unit, characterized in that the study (11) is installed in close contact with a plurality of flowable.
The method of claim 1,
The shaft hole (11) is a surface treatment unit, characterized in that having a free flow width (s) greater than the diameter of the fixed shaft (4). The method of claim 1,
The striking part (12) is a surface treatment unit, characterized in that formed in the form of a tooth having a plurality of teeth circumscribed at one end on the basis of the shaft hole (11).
The method of claim 1,
The hitting part 12 is a surface treatment unit, characterized in that formed in the form of a tooth having a plurality of teeth on one side of both ends with respect to the shaft hole (11).
The method of claim 1,
The striking part (12) is a surface treatment unit, characterized in that formed in the form of a tooth having a plurality of teeth on the outer periphery relative to the shaft hole (11).
Spacer member 2 is installed on the rotating shaft 1 of the blasting apparatus, and a plurality of fixed blocks 3 are alternately installed between the spaced member 2 and penetrate the fixed block 3. The fixed shaft 4 is coupled to a fixed plate provided at both ends of the rotating shaft, and is installed between the fixed shaft 4, the surface treatment unit for painting the steel pipe and steel plate by the centrifugal force generated in the rotating shaft (1) (10),
The surface treatment unit 10, which is installed on the fixed shaft 4, is provided with a tooth-shaped striking portion 22, 22 ′ having a plurality of teeth having a predetermined length from both ends, and the striking portion 22 ( And a first shaft hole 21a and a second shaft hole 21b formed along the longitudinal direction from the surface 22).
The method according to claim 6,
The fixed shaft (4) is divided into a first fixed shaft (4a) and a second fixed shaft (4b) radially around the rotating shaft (1) of the fixed plate 5, the surface treatment unit (10) Surface treatment unit, characterized in that the first shaft hole (21a) and the second shaft hole (21b) of the loose shape in the state of free flow width (S) is configured to penetrate through.

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