KR102020426B1 - Friction unit and surface treatment apparatus having thereof - Google Patents

Abstract

An embodiment of the present invention, a friction unit can comprise: a holding member in which a material is fixed; a drive member coupled to the holding member to enable the holding member to reciprocate; and a contact member fixed and arranged adjacent to the holding member, and coming in contact with at least one surface of the reciprocating material to be frictional on a surface of the material. According to another embodiment of the present invention, a surface treatment device can comprise: the friction unit; and a tank unit having an upper end portion coupled to the friction unit, and enabling a surface treatment liquid to be provided into the tank unit for the reciprocating material to be repeatedly immersed.

Description

Friction unit and surface treatment apparatus comprising same

The present invention relates to a friction unit and a surface treatment apparatus including the same.

Automotive materials are painted for the purpose of material protection, corrosion protection and color realization before use. The coating of these automotive materials is divided into electrodeposition coating, intermediate, top coat, external gloss, etc., and phosphate treatment is carried out for the purpose of improving the adhesion of the coating and protecting the material before coating.

Phosphate treatment quality of automobile materials is determined by dividing them into phosphate size, adhesion amount and shape. The prepared phosphate solution is strictly controlled for the period of use due to contamination and concentration changes.

The phosphate solution is used to induce crystallization of a certain amount of iron (Fe) ions by precipitating the cold rolled sheet material in the phosphate solution for the purpose of stabilizing the phosphate shape of the surface of the cold rolled steel sheet (CR) material after manufacture.

However, the surface of the cold rolled steel sheet precipitated in the phosphate solution has a problem that the phosphate solution is coated after a certain period of time, the reaction is no longer reacted with the phosphate solution and the crystallization of iron ions is also sharply reduced.

In this case, the material is repeatedly exchanged and precipitated in the phosphate solution to induce the extraction of iron ions, which requires a lot of processes and time, and requires a lot of materials. Raises another problem.

Therefore, there is a need for a study on a friction unit and a surface treatment apparatus including the same to solve the above problems.

Korean Application No. 10-2007-0041584

It is an object of the present invention to provide a friction unit and a surface treatment apparatus including the same, which can continuously perform a phosphate treatment process by removing a phosphate film formed on the surface of a material during phosphate treatment.

In another aspect, an object of the present invention is to provide a friction unit and a surface treatment apparatus including the same in which the phosphate treatment can be uniformly maintained on the surface of the material by uniform removal of the phosphate film on the surface of the material.

The friction unit according to an embodiment of the present invention is a holding member to which the material is fixed, a driving member coupled to the holding member to reciprocally move the holding member, and fixedly disposed adjacent to the holding member, the reciprocating movement of the material It may include a contact member in contact with at least one surface to be rubbed on the surface of the material.

Specifically, the contact member of the friction unit according to an embodiment of the present invention, a pair of friction bar portions and one end portion which are in contact with each of both sides of the material provided in the form of a plate is fixedly disposed, the other end is the friction It may be coupled to the bar portion, and may include a close contact spring portion for close contact with the friction bar portion by the material by elasticity.

Here, the friction bar portion of the friction unit according to an embodiment of the present invention is provided in surface contact with the material, the cross section is provided with a square or triangle to remove the attachment located on the surface of the material from the edge of the contact surface You can do

In addition, the contact member of the friction unit according to an embodiment of the present invention is provided at both ends of the friction bar portion formed longer than the width of the material, the pair of the friction bar portion adjacent to each other by magnetic force. It may include a contact magnet to move the position.

Here, the close contact magnet portion of the friction unit according to an embodiment of the present invention may be characterized in that it is provided with an electromagnet to adjust the size to closely contact the friction bar portion to the material.

And, the contact spring portion of the friction unit according to an embodiment of the present invention, the plurality is arranged at the center of the friction bar portion at regular intervals, in cooperation with the contact magnet portion to uniformly contact the friction bar portion with the material. It may be characterized by.

In addition, the holding member of the friction unit according to an embodiment of the present invention is provided with a pocket portion and the pocket portion having a hole into which one end of the material is inserted, and apply magnetic force to fix the material to the pocket portion. It may include a stator magnet portion.

Or the holding member of the friction unit according to an embodiment of the present invention is provided to penetrate through the pocket portion and the pocket portion is formed with a hole into which one end of the material is inserted to press and fix the material to the inner wall of the pocket portion It may include a fixing bolt portion.

Surface treatment apparatus according to another embodiment of the present invention includes a friction unit and the friction unit is coupled to the upper end, the surface treatment liquid is provided therein, the tank unit is repeatedly immersed in the material to be reciprocated vertically Can be.

Here, the tank unit of the surface treatment apparatus according to another embodiment of the present invention, the phosphate solution is accommodated therein with the surface treatment liquid, the material of the steel plate material is repeatedly immersed in the phosphate solution to the surface of the material It is characterized in that the iron ion is crystallized at.

The friction unit of the present invention and the surface treatment apparatus including the same have the advantage of continuously performing the phosphate treatment process by removing the phosphate film formed on the surface of the material during the phosphate treatment.

Accordingly, the process of repeatedly immersing a plurality of materials in the phosphate solution is unnecessary, thereby reducing the process and time of phosphate treatment, and also preventing the contamination of the phosphate solution by the material. .

In another aspect, the friction unit of the present invention and the surface treatment apparatus including the same have the advantage that the phosphate treatment can be uniformly maintained on the material surface by uniform removal of the phosphate film on the material surface.

1 is a perspective view showing a friction unit of the present invention.
Figure 2 is a perspective view showing an embodiment in which the holding member includes a fixing bolt in the friction unit of the present invention.
3 is a perspective view showing an embodiment in which the contact member includes a close contact magnet in the friction unit of the present invention.
Figure 4 is a perspective view showing an embodiment in which the contact magnet portion, the contact spring portion disposed so that the friction unit of the present invention performs uniform friction.
5 is a side view showing the surface treatment apparatus of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, embodiments of the present invention may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below. In addition, the embodiments of the present invention are provided to more completely explain the present invention to those skilled in the art. Shape and size of the elements in the drawings may be exaggerated for more clear description.

Also, in the present specification, the singular forms "a", "an" and "the" are intended to include the plural expressions unless the context clearly dictates otherwise. Like reference numerals refer to the same or corresponding elements throughout the specification. I shall do it.

The present invention relates to a friction unit 100 and a surface treatment apparatus including the same, by removing the phosphate film formed on the surface of the material (m) during the phosphate treatment can be carried out continuously the phosphate treatment process. This eliminates the need to alternately immerse the plurality of materials (m) in the phosphate solution, thereby reducing the process and time of the phosphate treatment, and also repeatedly replacing the plurality of materials (m) before and again. As it is immersed in the phosphate solution, it is possible to prevent the contamination of the phosphate solution due to the increased possibility of contamination of the material (m) as the time remaining outside the phosphate solution becomes longer.

That is, after removing the oil, rust, black skin, etc. of the metal surface with respect to the frame material (m) of the car, and cleaning it, phosphate treatment using phosphate pickling with various accelerators added to manganese phosphate, zinc phosphate By doing so, it is to improve the adhesion of the coating on the automobile material (m), etc. In this process, the friction unit 100 of the present invention to solve the problem caused by the formation of the phosphate film on the surface of the automobile material (m) and the same Surface treatment apparatus is presented.

In addition, the friction unit 100 and the surface treatment apparatus including the same of the present invention can be provided by the uniform removal of the phosphate coating on the surface of the material (m) can be uniformly maintained on the surface of the material (m).

Specifically, with reference to the drawings, Figure 1 is a perspective view showing a friction unit 100 of the present invention, referring to the drawing, the friction unit 100 according to an embodiment of the present invention is a material (m) Is fixed to the holding member 110, the driving member 120 coupled to the holding member 110 to reciprocally move the holding member 110 and the holding member 110 are fixedly disposed and reciprocally moved. It may include a contact member 130 in contact with at least one surface of the material (m) to be rubbed on the surface of the material (m).

As described above, the friction unit 100 of the present invention includes the contact member 130, thereby exerting a friction external force on the surface of the material m and thus forming a phosphate that may be formed on the surface of the material m when the phosphate solution is treated. The film is removed repeatedly to enable continuous phosphate treatment.

The holding member 110 is configured to fix the material (m), and is connected to the driving member 120 and provided to reciprocate the material (m).

To this end, the holding member 110 may include a pocket part 111 into which the material m is inserted and a fixing bolt part 113 for fixing the material m to the pocket part 111. A detailed description thereof will be described later with reference to FIG. 2.

In another embodiment, the holding member 110 may include a stationary magnet portion 112 instead of the fixing bolt portion 113.

That is, the holding member 110 of the friction unit 100 according to an embodiment of the present invention, the pocket portion 111 and the pocket portion 111 is formed with a hole into which one end of the material (m) is inserted It may be provided, and may include a stationary magnet 112 for fixing the material (m) to the pocket portion 111 by applying a magnetic force.

As such, when the end of the material m is inserted into the hole formed in the pocket part 111, the stator magnet part 112 exerts an attractive force or repulsive force with the material m to determine the pocket part 111. The magnetic force is fixed to the inner surface of the hole to fix the material (m).

At this time, the stator magnet portion 112 may be provided as a permanent magnet, it may be provided as an electromagnet may be provided to adjust the force for fixing the material (m).

The driving member 120 is coupled to the holding member 110 to reciprocate the holding member 110, thereby reciprocating the material (m) fixed to the holding member 110. To this end, the driving member 120 may be provided as a stretched hydraulic or pneumatic cylinder, but is not limited to this, if the driving member 120 of the present invention is configured to reciprocate the holding member 110 Can be.

The contact member 130 is provided with a fixed position and is provided to be in contact with the material (m) to be reciprocated, it is possible to apply a friction action to the material (m). Accordingly, the phosphate film or the like formed on the material m can be removed by frictional action.

In particular, the contact member 130 is disposed in a relatively fixed position relative to the material (m) is configured to perform only the function of close contact, simplifying the configuration to reduce the probability of failure of the friction unit 100, etc. Let's go.

Such a contact member 130 may include a specific configuration of the friction bar portion 131, the contact spring portion 132.

That is, in detail, the contact member 130 of the friction unit 100 according to the embodiment of the present invention, a pair of friction bar portion 131 which is respectively in contact with both sides of the material (m) provided in the form of a plate. And one end is fixedly disposed, the other end may be coupled to the friction bar portion 131, it may include a close contact spring portion 132 to closely contact the friction bar portion 131 by the material (m) by elasticity. .

Here, the friction bar 131 is in direct contact with the material (m), the friction bar 131 is in close contact with the material (m) by the close spring portion 132, the material (m) ) Is reciprocated by the holding member 110 and the driving member 120, the friction action occurs between the contact portion (m) and the material (m) of the friction bar portion 131, the material (m) The phosphate film and the like formed on the surface can be removed.

The friction bar part 131 may be provided in a pair to be in close contact with both surfaces of the material (m), or may be provided in one configuration to be in close contact with only one surface.

In addition, the friction bar 131 may be provided to have a pointed end in a wedge shape so that the pointed portion is in close contact with the material (m) to remove the phosphate coating on the surface of the material (m). In order to increase the removal effect of the phosphate film or the like on the surface of the material (m) may be provided in a shape that is in surface contact.

In other words, the friction bar portion 131 of the friction unit 100 according to an embodiment of the invention is provided in surface contact with the material (m), the cross section is provided with a square or triangle in the corner of the contact surface ( It may be characterized by removing the deposit located on the surface of m).

As the friction bar 131 is provided in the form of surface contact, the phosphate coating on the surface of the material m may be removed by friction with the material reciprocated, and at the edge portion of the contact surface. Since the scraping action is also performed, it is possible to make a double phosphate coating or the like.

The close spring portion 132 serves to provide an elastic force to closely contact the friction bar portion 131 to the material m. That is, the close spring portion 132 is coupled to the friction bar portion 131, the other end of the opposite end portion fixed to closely contact the friction bar portion 131 to the material m by the elastic elastic force.

In addition, the contact member 130 may further include a connection pin part 134 such that the elastic force acting on the contact spring part 132 acts as a force for closely contacting the friction bar part 131 to the material m. Can be.

The connecting pin 134 is inserted into the pin through hole 131a formed in the thickness direction at both ends of the friction bar 131, one end is fixed and provided as a fixed end 134a, and the other end is the pin through. A penetration preventing tab 134b is provided to penetrate the hole 131a but protrude in a direction different from the longitudinal direction in order to prevent the friction bar 131 from being separated.

Here, in the case where the pair of friction bar portion 131 is provided to contact both sides of the material (m), the release preventing tab 134b is in contact with the outer surface of any one friction bar portion 131 to prevent separation Since the other friction bar part 131 is pushed in the direction of the material (m) by the contact spring part 132, the separation is prevented, so that the pair of friction bar parts 131 are respectively provided on both sides of the material (m). Close contact. This can be confirmed by way of example in the enlarged side view shown on the right side of FIG.

2 is a perspective view showing an embodiment in which the holding member 110 includes a fixing bolt portion 113 in the friction unit 100 of the present invention. Referring to the drawings, friction according to an embodiment of the present invention. The holding member 110 of the unit 100 is provided to penetrate the pocket portion 111 and the pocket portion 111 in which a hole into which one end portion of the material m is inserted and the pocket portion 111 are used. It may include a fixing bolt 113 for pressing and fixing to the inner wall of the pocket 111.

That is, the holding member 110 may include a pocket part 111 into which the material m is inserted and a fixing bolt part 113 for fixing the material m to the pocket part 111. .

As such, when the end of the material m is inserted into the hole formed in the pocket 111, the fixing bolt 113 is screwed into the pocket 111 to the pocket 111. It penetrates to the formed hole, and as the tightening bolt portion 113 is further tightened, the material m is fixed to the inner surface of the hole of the pocket part 111 to fix the material m.

3 is a perspective view showing an embodiment in which the contact member 130 includes a close contact magnet portion 133 in the friction unit 100 of the present invention. Referring to the drawings, friction according to an embodiment of the present invention. The contact member 130 of the unit 100 is provided at both ends in the longitudinal direction of the friction bar portion 131 formed longer than the width of the material (m), the pair of friction bar portion 131 to the magnetic force It may include a close contact magnet portion 133 to move adjacent to each other.

As described above, the friction unit 100 of the present invention may be configured to closely contact the friction bar part 131 to the material m by the contact magnet part 133 separately from the contact spring part 132. That is, as the contact magnet portions 133 are provided to attract each other at both ends of the pair of friction bar portions 131 disposed on both surfaces of the material m, the pair of friction bar portions 131 are provided. It can be smuggled in the material (m).

To this end, the close contact magnet portion 133 is provided at both ends of the longitudinal direction of the friction bar portion 131 formed longer than the width of the material (m), is disposed to protrude to both sides of the material (m) The friction bar 131 may be brought into close contact with the material m while preventing a problem in which magnetic force is applied to the material m.

The close contact magnet portion 133 may be provided as a permanent magnet, but may be configured to adjust the attraction force provided by the electromagnet.

That is, the close contact magnet portion 133 of the friction unit 100 according to an embodiment of the present invention is provided with an electromagnet, and adjusts the size of bringing the friction bar portion 131 into close contact with the material m. You can do

In particular, when the close contact magnet portion 133 is provided with an electromagnet, it is possible to adjust the adhesion of the friction bar portion 131 in close contact with the material (m), thereby phosphate film attached to the surface of the material (m) The removal intensity of the back may be adjusted to remove only the object to be removed.

4 is a perspective view showing an embodiment in which the close contact magnet portion 133 and the close contact spring portion 132 are arranged such that the friction unit 100 of the present invention performs uniform friction. Referring to the drawings, FIG. The contact spring portion 132 of the friction unit 100 according to an embodiment is arranged in the central portion of the friction bar portion 131 at a predetermined interval, the friction bar portion in cooperation with the contact magnet portion 133 It may be characterized in that 131 is uniformly in close contact with the material (m).

That is, the friction unit 100 of the present invention is configured such that the contact magnet part 133 and the contact spring part 132 cooperate to uniformly remove the phosphate film on the surface of the material (m).

In other words, the close contact magnet portion 133 exerts a magnetic force in close contact with the material (m) at both ends of the friction bar portion 131, and the close contact spring portion 132 at the center portion of the friction bar portion 131. By applying an elastic force in close contact with the material (m) is configured to be in close contact with the material (m) uniformly throughout the longitudinal direction of the friction bar portion 131.

Accordingly, it is possible to prevent the problem that the quality of the phosphate treatment deteriorates as the phosphate coating is removed unevenly.

Figure 5 is a side view showing a surface treatment apparatus of the present invention, referring to the drawing, the surface treatment apparatus according to another embodiment of the present invention is the friction unit 100 and the friction unit 100 is coupled to the upper end In addition, the surface treatment liquid (1) is provided therein, and may include a tank unit 200 in which the material (m) repeatedly reciprocated is repeatedly immersed.

As described above, the friction unit 100 of the present invention is immersed and separated from the surface treatment liquid l provided in the tank unit 200 by the material m reciprocated as it is coupled to the tank unit 200. Can be repeated.

To this end, the driving member 120 of the friction unit 100 is coupled to the tank unit 200 to form a support point, the close contact spring portion 132 acting elasticity in the contact member 130 One end of is also coupled to the tank unit 200 to form a support point.

Here, the tank unit 200 of the surface treatment apparatus according to another embodiment of the present invention accommodates the phosphate solution therein with the surface treatment liquid l, and repeats the material m of a steel plate material. It may be characterized in that the iron ions are crystallized from the surface of the material (m) by immersion in the phosphate solution.

As such, the surface treatment liquid l is provided as a phosphate solution to perform phosphate treatment on the material m of the steel sheet used for the automobile material m. In other words, by extracting the iron ions from the surface of the material (m) it is to proceed to the phosphate treatment to improve the coating adhesion of the material (m) used for automobile frames and the like and to protect the material (m).

Here, the phosphate solution may be a phosphate pickling agent in which various promoters are added to manganese phosphate, zinc phosphate, and the like.

Although the embodiments of the present invention have been described above, the scope of the present invention is not limited thereto, and various modifications and variations can be made without departing from the technical spirit of the present invention described in the claims. It will be obvious to one with ordinary knowledge.

100: friction unit 110: holding member
111: pocket part 112: stationary magnet part
113: fixing bolt portion 120: drive member
130: contact member 131: friction bar portion
132: close contact spring 133: close contact
134: connecting pin 200: tank unit

Claims (10)

Holding member to which the material is fixed;
A driving member coupled to the holding member to reciprocate the holding member; And
A contact member fixedly disposed adjacent to the holding member and in contact with at least one surface of the material reciprocated to be rubbed onto a surface of the material;
Including;
The contact member,
A pair of friction bars each contacting both sides of the material provided in the form of a plate; And
An adhesion magnet part provided at both ends of the friction bar part formed longer than the width of the material, and moving the pair of friction bar parts adjacent to each other by a magnetic force;
Friction unit comprising a. The method of claim 1,
The contact member,
One end is fixedly disposed, the other end is coupled to the friction bar portion, the contact spring portion for close contact with the friction bar portion by the elastic material;
Friction unit comprising a. The method of claim 1,
The friction bar unit is provided to be in surface contact with the material, the cross section is provided with a quadrangle or triangle, the friction unit, characterized in that to remove the deposits located on the surface of the material from the edge of the contact surface. delete The method of claim 1,
The contact magnet part is provided with an electromagnet, the friction unit, characterized in that for adjusting the adhesion force to the friction bar part in close contact with the material. The method of claim 2,
And a plurality of the contact springs are arranged at the center portion of the friction bar at regular intervals and cooperate with the contact magnet to uniformly contact the friction bar with the material. Holding member to which the material is fixed;
A driving member coupled to the holding member to reciprocate the holding member; And
A contact member fixedly disposed adjacent to the holding member and in contact with at least one surface of the material reciprocated to be rubbed onto a surface of the material;
Including;
The holding member,
A pocket part having a hole into which one end of the material is inserted; And
A fixed magnet part provided on the pocket part and applying magnetic force to fix the material to the pocket part;
Friction unit comprising a. Holding member to which the material is fixed;
A driving member coupled to the holding member to reciprocate the holding member; And
A contact member fixedly disposed adjacent to the holding member and in contact with at least one surface of the material reciprocated to be rubbed onto a surface of the material;
Including;
The holding member,
A pocket part having a hole into which one end of the material is inserted; And
A fixing bolt part provided to penetrate the pocket part to press and fix the material to the inner wall of the pocket part;
Friction unit comprising a. A friction unit according to any one of claims 1 to 3 and 5 to 8; And
The friction unit is coupled to the upper end portion, the surface treatment liquid is provided therein, the tank unit is repeatedly immersed in the material to be reciprocated vertically;
Surface treatment apparatus comprising a. The method of claim 9,
The tank unit is a surface treatment apparatus characterized in that the phosphate solution is contained therein with the surface treatment solution, and the material of steel sheet is repeatedly immersed in the phosphate solution to extract iron ions from the surface of the material.

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