KR102043546B1 - Apparatus for treatment material - Google Patents

Abstract

The present invention provides processing means which is provided with a material treatment liquid for processing the material; A material assembly installed in the processing means so as to be in contact with the material treatment liquid and having a plurality of materials having a height difference therebetween; And, the material assembly is provided, and moving means for moving the material assembly to the processing means; provides a material processing apparatus comprising a.

Description

Material Handling Equipment {APPARATUS FOR TREATMENT MATERIAL}

The present invention relates to a material processing apparatus that improves the workability of the operator.

It should be noted that the content described in this section merely provides background information on the present invention and does not constitute a prior art.

Automotive materials are painted for the purpose of pursuing beauty through material protection and color realization, and phosphate treatment is performed for the purpose of improving adhesion and material protection before painting.

Material surface phosphate quality evaluation is divided into phosphate shape, adhesion density, adhesion amount, and phosphate size, and the material is repeatedly subjected to the entire process as well as phosphate solution by time to measure phosphate adhesion density.

As the material surface phosphate adherence density measurement by the time of the test process in the manufacturing process of the specimen repeatedly for each time material has a lot of time and processes, there is a problem that the work load of the worker increases.

The additional cost is incurred by the decrease of productivity due to the repetition of the whole process by time, the contamination of the used solution and the increase in the amount of usage due to the drop of the remaining solution in the process of each process. have.

Each time the phosphate adhesion density measurement material is manufactured, the phosphate pretreatment process is performed, thereby increasing the work load of the worker and increasing fatigue accumulation due to work intensity.

KR 10-0884578

The present invention, as one aspect, to provide a material processing apparatus that can shorten the working time through the process shortening for the processing of the material, can reduce the workload of the worker.

As one aspect for achieving the above object, the present invention is a processing means provided with a material treatment liquid for processing the material; A material assembly installed in the processing means so as to be in contact with the material treatment liquid and having a plurality of materials having a height difference therebetween; And a moving means, to which the material assembly is installed, which moves the material assembly to the processing means. And controlling the moving means to raise and lower the material assembly sequentially at a set time difference so that at least some of the plurality of materials installed with a height difference are immersed in the material processing liquid of the processing means differently. And a plurality of the material assemblies are replaceably installed in the moving means, the material assembly processed by the processing means is removed from the moving means, and the new material assembly is moved to the moving means. Installed in the processing means provides a material processing apparatus, characterized in that for processing a plurality of new material at a time.

Preferably, the material assembly, the material frame is installed on the moving means; And a plurality of material fixing grooves formed to be spaced apart in the height direction in the material frame and to which the material is fixed.

Preferably, the material assembly, is disposed on the inner end of the material fixing groove, and a fixed magnetic body for fixing the material through the magnetic force; may further include a.

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Preferably, the moving means, the insertion frame formed with the assembly insertion groove is inserted into the material assembly fixed; And a cylinder member which moves the insertion frame to move the material assembly to the processing means.

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Preferably, the support frame is installed across the plurality of the processing means; And a moving frame to which the moving means is fixed and movably installed on the support frame by a driving means.

Preferably, the plurality of treatment means may be configured to perform at least the phosphate treatment among degreasing treatment, cleaning treatment, surface adjustment treatment, phosphate treatment, and washing treatment.

Preferably, in the phosphate treatment, in a state in which the material assembly is immersed in the processing means in which the phosphate treatment liquid is accommodated, the moving means moves up and down the material assembly step by step at a predetermined time difference, thereby differenting the phosphate treatment time of the plurality of materials. Can be adjustable.

According to one embodiment of the present invention as described above, it is possible to shorten the working time through the process shortening for processing of the material, it is possible to reduce the workload of the worker.

1 is a view showing a material assembly of the material processing apparatus of the present invention.
2 is a cross-sectional view of FIG. 1.
3 is a cross-sectional view showing a state in which the material assembly of the material processing apparatus of the present invention is installed in the moving means.
4 is a view showing a material processing apparatus according to an embodiment of the present invention.
5 is a view illustrating a state in which the material processing apparatus of FIG. 4 moves one step.
FIG. 6 is a view illustrating a state in which materials disposed in five stages are phosphated by repeating the process of FIGS. 4 and 5.
7 is a view showing a material processing apparatus according to another embodiment of the present invention.
8 is a view showing a material processing apparatus according to another embodiment 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.

Hereinafter, with reference to the drawings will be described in detail with respect to the material processing apparatus according to an embodiment of the present invention.

1 to 8, a material processing apparatus according to an embodiment of the present invention includes a material assembly 100, a moving unit 200, and a processing unit 300, and further includes a support frame 400, The moving frame 500 may include a driving means (not shown) and a control means (not shown).

1 to 4, the material processing apparatus of the present invention is processing means 300 is provided with a material processing liquid (T) for processing the material (S), and the material processing liquid in the processing means 300 A material assembly 100 which is installed to be in contact with (T) and is provided with a plurality of materials S with a height difference, and the material assembly 100 is installed, and the material assembly 100 is disposed in the processing means. It may include a moving means 200 for moving to (300).

The material assembly 100 is a component in which a plurality of materials S are installed for processing the materials S.

Referring to FIG. 1, the material assembly 100 may be installed with a plurality of materials S having a height difference.

3 and 4, when the processing means 300 is composed of a water tank-type member having an open top, the material assembly 100 is a moving means in a state disposed above the processing means 300 ( 200 may be lowered in the direction of the processing means (300).

The movement means 200 may immerse the material assembly 100 provided with a plurality of materials S at a height difference in the processing means 300.

Referring to FIG. 5, after a predetermined time has elapsed, at least two or more materials S of the plurality of materials S installed with a height difference by sequentially elevating the material assembly 100 are the materials of the processing means 300. The time to be immersed in the processing liquid T can be adjusted differently.

1 and 2, the material assembly 100 is formed to be spaced apart in the height direction from the material frame 110 and the material frame 110 installed in the moving means 200, and the material ( S) may be provided with a plurality of material fixing groove 130 is fixed.

The material frame 110 may be formed of a rod member having a rectangular pillar shape, and the material fixing groove 130 may be formed inwardly on opposite sides of the material frame 110.

Referring to Figure 2, the material frame 110 is formed on the top of the fixed frame 111 and the fixed frame 111, the material fixing groove 130 is fixed to the material (S) is fixed, the moving means 200 It may be provided with an installation frame 113 is fixed to the insertion frame (210) of.

The fixing frame 111 may be formed of a rod member having a rectangular pillar shape, and the material fixing groove 130 may be formed inwardly on opposite sides of the fixing frame 111.

The installation frame 113 may be formed in a 'T' shape when viewed from the front.

The installation frame 113 may include a disk-shaped board member 114 formed at an upper portion thereof, and a connecting rod 115 extending from a lower surface of the board member 114 and connected to an upper end of the fixing frame 111. have.

Referring to Figure 3, the material fixing groove 130 is formed in a plurality of spaced apart at a predetermined interval in the height direction of the material frame 110, may be installed to face in the left and right directions.

For example, the material fixing groove 130 may be formed at the same height on the material frame 110.

The material fixing groove 130 is formed in a shape corresponding to the cross section of the material (S), the material fixing groove 130 and the material (S) is predetermined so that the material (S) is easy to insert into the material fixing groove 130 Tolerance of can be formed.

However, although not shown, when the fixing frame 111 is formed in the shape of a square pillar, the material fixing groove 130 may be formed on each of the four sides of the square pillar and a plurality of spaced apart in each direction in the height direction The material fixing groove 130 may be formed.

2 and 3, the material assembly 100 is further disposed on the inner end of the material fixing groove 130, and further comprises a stationary magnetic body 150 for fixing the material (S) via a magnetic force can do.

The stator magnetic body 150 may be provided as a magnetic body fixed to the inner end region of the material fixing groove 130.

The material S installed in the material assembly 100 may be fixed by the magnetic force of the stator magnetic body 150 in a state of being inserted into the assembly insertion groove.

That is, the material S is primarily supported by the slope of the assembly insertion groove in the state where the assembly insertion groove is inserted, and the material S is fixed by the magnetic force of the stator magnetic body 150 while the material S is the material assembly ( 100) can be more stably fixed.

Then, the material (S) can be detachably installed in the material assembly 100 while being inserted into the material fixing groove 130, the material assembly 100 can be reused repeatedly after the processing of the material (S). have.

Referring to FIG. 2, the material assembly 100 may be formed inwardly at a lower end of the material frame 110 and may include a support groove 170 fixed to the lower stopper 310 of the processing means 300. have.

In the processing means 300, the raw material S may be brought into contact with the raw material processing liquid T to process the raw material S.

The processing means 300 may be configured to surface-treat the material S by contacting the material S with the material processing liquid T.

That is, the treatment of the workpiece S performed in the workpiece treatment apparatus of the present invention may be a surface treatment of the workpiece S.

For example, referring to FIGS. 4 and 5, the processing of the material S in the processing means 300 may be performed by immersing the material S in the material processing liquid T.

4 and 5, the processing means 300, the material assembly 100 is immersed in the material processing liquid (T) of the processing means 300 by the moving means 200 by the material ( S) can be processed.

The material assembly 100 may be immersed in the material processing liquid T of the processing means 300 by the moving means 200 in a state disposed above the processing means 300.

Referring to FIG. 7, the processing means 300 may process the material by the injection means N in a state where the material assembly 100 is disposed inside the processing means 300 by the moving means 200. The material S may be processed by spraying the liquid T.

2 and 7, the material assembly 100 is formed in the lower end of the material frame 110, the support groove 170 is fixed to the lower stopper 310 of the processing means 300. It may be provided.

Referring to FIG. 7, the processing means 300 may spray the material processing liquid T while the material assembly 100 is disposed inside the processing means 300 by the moving means 200. The material S can be processed.

The support groove 170 is a material assembly 100 is collapsed or moved by the injection pressure during the injection process of the material processing liquid (T) when the material processing liquid (T) is injected in the injection method from the processing means 300 It serves to fix things.

The support groove 170 may be formed in an inverted trapezoidal shape and may be inserted into and fixed to the lower stopper 310 having a shape corresponding to the support groove 170.

Of course, the method of processing the material (S) in the processing means 300 is a method of immersing the material (S) in the material processing liquid (T), and the method of spraying the material processing liquid (T) to the material (S) Combinations may be applied.

The method of spraying the material treatment liquid (T) is to spray the material treatment liquid (T) supplied through the injection nozzle to the material assembly 100, a plurality of materials (S) in contact with the material treatment liquid (T) The processing of (S) can be made.

However, the method of processing the material (S) in the processing means 300 is a method of immersing the material (S) in the material processing liquid (T), and a method of spraying the material processing liquid (T) to the material (S) Of course, it is not limited to various materials (S) can be applied.

In one example, the processing means 300 may be composed of a tubular member having an open top.

The material assembly 100 may be disposed above the processing means 300, and a plurality of materials S may be installed at a height difference.

In one example, the treatment means 300 may be a phosphate treatment.

The material treatment solution T provided to the treatment means 300 may be composed of a phosphate solution.

Phosphate treatment may be performed by immersing the material assembly 100 in the processing means 300 in which the phosphate solution is stored.

This is to improve the adhesion of the coating by forming a phosphate film on the surface of the material (S).

4 and 5, the moving means 200 may raise and lower the material assembly 100 at a predetermined time difference.

Referring to FIG. 4, the moving means 200 may be immersed in the processing means 300 by lowering the material assembly 100.

The plurality of materials S installed in the material assembly 100 may be immersed in the material treatment liquid T for the same time, and at the same time, surface treatment of the material S may be performed.

Of course, at least a part of the plurality of materials S installed in the material assembly 100 may be differently controlled so that the time for which the material S is immersed in the processing means 300 may be used to perform surface treatment of the material S.

That is, in the state in which the material assembly 100 is immersed in the material processing liquid T of the processing means 300, the moving means 200 moves up and down the material assembly 100 step by step with a set time difference. The time at which the plurality of materials S installed at different heights is immersed in the material treatment liquid T may be set differently.

Referring to FIG. 3, the movement means 200 moves the insertion frame 210 and the insertion frame 210 having an assembly insertion groove in which the material assembly 100 is inserted and fixed, thereby moving the material assembly 100. ) May be provided with a cylinder member 230 for moving the processing means 300.

The insertion frame 210 may have an assembly insertion groove formed therein, and the material assembly 100 may be fixed to the assembly insertion groove in a replaceable manner.

The cylinder member 230 may be configured as an air cylinder for moving the insert frame 210 to move the material assembly 100 to the processing means 300.

One side of the cylinder member 230 is installed in the insertion frame 210 to fix the material assembly 100, the other side may be fixed to the moving frame (500).

In the material processing apparatus of the present invention, a plurality of the material assemblies 100 may be installed to the moving means 200 in a replaceable manner.

While the plurality of materials S are fixed to the material assembly 100, the plurality of materials S may be processed at one time by the processing means 300.

In addition, as the plurality of material assemblies 100 are provided, the material assembly 100 processed by the processing means 300 is removed from the moving means 200.

Next, the new material assembly 100 is simply installed on the moving means 200 so that the processing means 300 performs a surface treatment on the new plurality of materials S at once, thereby providing a working time for surface treatment of the materials S. This can be shortened.

The material treating apparatus includes the moving means for sequentially elevating the material assembly 100 with a set time difference so that at least some of the plurality of materials S are differently controlled to be immersed in the processing means 300. It may further include a control means (not shown) for controlling the 200.

The control means (not shown) may control the moving means 200, and as the material assembly 100 immersed in the processing means 300 is sequentially elevated with a set time difference, a plurality of materials S are processed. The time to be immersed in 300 may be set differently.

Furthermore, the control means (not shown) may control the driving means (not shown) to be described later to move the moving frame 500 in which the moving means 200 is installed on the support frame 400.

Referring to FIG. 8, the material processing apparatus includes a support frame 400 installed across a plurality of the processing means 300, and the moving means 200 is fixed by a driving means (not shown). It may further include a moving frame 500 which is installed to be movable on the support frame 400.

The moving frame 500 may be moved on the support frame 400 through a driving means (not shown).

The driving means (not shown) may move the moving frame 500 on the support frame 400.

The control means (not shown) described above may control the driving means (not shown) to move the moving frame 500 in which the moving means 200 is installed on the support frame 400.

The material processing apparatus includes a support frame 400 installed across the plurality of processing means 300, and a moving frame to which the moving means 200 is fixed and movable on the support frame 400. And a driving means (not shown) for moving the movable frame 500 on the support frame 400.

A plurality of processing means 300 may be installed, and the material treatment liquid T provided from each processing means 300 may be configured differently from each other.

The support frame 400 may be installed above the plurality of processing means 300.

The material assembly 100 installed on the moving frame 500 via the moving means 200 may move along the support frame 400, and may be moved by the moving means 200. The material S may be processed by moving to either one.

Of course, the material assembly 100 may move along the support frame 400, and may selectively surface-treat the material S in at least two or more of the plurality of processing means 300.

The plurality of treatment means 300 may be configured to perform at least the phosphate treatment among degreasing treatment, washing treatment, surface adjustment treatment, phosphate treatment, and washing treatment.

The plurality of treatment means 300 may be configured to undergo a phosphate treatment and at least one of the remaining treatments.

Referring to FIG. 8, the material assembly 100 installed on the moving frame 500 via the moving means 200 may move along the support frame 400, and may include at least one of the plurality of processing means 300. Optionally, the surface treatment of the material S may be performed at two or more.

For example, it may include phosphate treatment and washing treatment.

As another example, looking at the processing of the material (S) by the plurality of processing means 300, it can be configured to perform a degreasing treatment, cleaning treatment, surface adjustment treatment, phosphate treatment, cleaning treatment.

First, the moving frame 500 may be disposed on the support frame 400 by a driving means (not shown) for the degreasing treatment, and may be disposed above the degreasing treatment treatment means 300.

The moving means 200 may be disposed by lowering the material assembly 100 to the processing means 300 for degreasing treatment.

In the degreasing treatment, the degreasing solution may be injected onto the material S installed in the material assembly 100, or oil may be removed from the material S while being immersed in the degreasing solution.

After the degreasing treatment, the material assembly 100 is elevated by the moving means 200, the moving frame 500 by the driving means (not shown) processing means 300 for the subsequent processing of the material (S) Can be moved to.

Thereafter, in a similar manner, cleaning treatment, surface adjustment treatment, phosphate treatment, and cleaning treatment can be performed.

The material assembly 100 may be moved to the cleaning treatment unit 300 to remove the degreasing solution from the surface of the material S.

The material assembly 100 may be moved to the surface adjustment processing means 300 to perform a surface adjustment process on the surface of the material S.

The material assembly 100 is moved to the processing means 300 for phosphate treatment so that the surface of the material S may be phosphated.

The material assembly 100 may be moved to the cleaning treatment means 300 to remove the phosphate treatment solution from the surface of the material S.

Thereafter, the material S drying treatment for removing the water used in the washing treatment may be added.

Processes such as degreasing treatment, cleaning treatment, surface adjustment treatment, and the like may be simultaneously processed for the plurality of materials S installed in the material assembly 100.

Of course, in the case of phosphate treatment, it is possible to simultaneously process a plurality of materials (S).

However, in the case of the phosphate treatment, the time of the phosphate treatment can be adjusted differently for the plurality of materials (S).

For example, in a state in which the material assembly 100 is immersed in the processing means 300 for phosphate treatment, the moving means 200 moves up and down the material assembly 100 step by step at a set time difference to the material assembly 100. The phosphate treatment time of the plurality of materials S installed at different heights may be set differently.

The phosphate treatment of the processing means 300 is a time difference in which the moving means 200 sets the material assembly 100 in a state in which the material assembly 100 is immersed in the processing means 300 containing the phosphate treatment liquid. By stepping up and down step by step may be able to differently control the phosphate treatment time of the plurality of materials (S).

The material treating apparatus may improve the adhesion of the coating by forming a phosphate film on the surface of the material (S) through the phosphate treatment.

For example, the plurality of materials (S) is one of the phosphate quality evaluation method to measure the adhesion density through the surface (S) surface phosphate treatment over time.

4 and 5, the material assembly 100 may be installed in five stages with a height difference at a height.

For example, the time for which the material S is immersed in the phosphate solution which is the material treatment liquid T may be set to 10 seconds, 30 seconds, 60 seconds, 90 seconds, 120 seconds.

However, the time that the material (S) is immersed in the material treatment liquid (T) can of course be set fluidly according to the experimental purpose.

 4 is a view showing a material processing apparatus according to an embodiment of the present invention, FIG. 5 is a view showing a state in which the material processing apparatus of FIG. 4 is moved one step, and FIG. 6 is a moving means 200. Figure 1 shows the material (S) phosphated by a phosphate solution while being stepped up and down step by step 1 to 5 by.

Hereinafter, with reference to FIGS. 4 to 6, the present invention will be described with reference to the embodiment of the phosphate treatment in which the material treatment solution T is a phosphate solution.

However, of course, other material treatment solution (T) may be used instead of the phosphate solution.

First, the moving means 200 may immerse the material assembly 100 in the phosphate solution of the processing means 300.

Referring to FIG. 4, the material S in all five stages is immersed in a phosphate solution.

Next, in a state in which all five stages of the material S are immersed in the phosphate solution, the moving means 200 first lifts the material assembly 100 after 10 seconds, so that the first stage of the material S of the upper stage S is Depart out of the phosphate solution.

At this time, the material (S) of the lower four stages is still immersed in the phosphate solution.

In this way, the moving means 200 after the 30 seconds second material assembly 100 is secondly lifted out of the phosphate solution of the second stage material (S) from the upper side.

The moving means 200 raises and lowers the material assembly 100 three times after 60 seconds so that the material S of three stages from the upper side is separated out of the phosphate solution.

The moving means 200 is fourth and fourth after the material assembly 100 is elevated by 90 seconds to separate the material (S) of the four stages from the upper side out of the phosphate solution.

The moving means 200 may elevate the material assembly 100 five times after 120 seconds so that the fifth step material S is separated out of the phosphate solution from the upper side, thereby completing the fifth step material phosphate treatment. .

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and changes can be made without departing from the technical spirit of the present invention described in the claims. It will be obvious to those of ordinary skill in the field.

100: material assembly 110: material frame
111: fixed frame 113: mounting frame
114: board member 115: connecting rod
130: material fixing groove 150: fixed magnetic material
170: support groove 200: moving means
210: insertion frame 230: cylinder member
300: processing means 310: lower stopper
400: support frame 500: moving frame
Not shown: Driving means Not shown: Control means
N: injection means S: material
T: Material treatment liquid

Claims (11)

Processing means provided with a material treatment liquid for processing a material;
A material assembly installed in the processing means so as to be in contact with the material treatment liquid and having a plurality of materials having a height difference therebetween; And,
Moving means for installing the material assembly and moving the material assembly to the processing means; And,
Control means for controlling said moving means to raise and lower the material assembly sequentially at a set time difference so that at least some of the plurality of materials installed with a height difference are immersed in the material processing liquid of the processing means differently. Including;
A plurality of the material assembly is installed so as to be replaceable in the moving means, the material assembly processed by the processing means is removed from the moving means, the new material assembly is installed in the moving means so that the treatment means Material processing apparatus characterized in that the processing of a plurality of new material at a time.
The method of claim 1, wherein the material assembly,
A material frame installed on the moving means; And,
And a plurality of material fixing grooves formed to be spaced apart in the height direction in the material frame and to which the material is fixed.
The method of claim 2, wherein the material assembly,
And a fixed magnetic body disposed at an inner end of the material fixing groove and fixing the material by a magnetic force.
delete delete delete The method of claim 1, wherein the moving means,
An insertion frame having an assembly insertion groove in which the material assembly is inserted and fixed; And,
And a cylinder member which moves the insertion frame to move the material assembly to the processing means.
delete The method of claim 1,
A support frame installed across the plurality of processing means; And,
And a moving frame to which the moving means is fixed and movably installed on the support frame by a driving means.
The method of claim 9, wherein the plurality of processing means,
And a degreasing treatment, cleaning treatment, surface adjustment treatment, phosphate treatment and cleaning treatment.
The method of claim 10, wherein the phosphate treatment,
In the state in which the material assembly is immersed in the processing means containing the phosphate treatment liquid, the moving means is stepped up and down the material assembly by a predetermined time difference, characterized in that for controlling the phosphate treatment time of a plurality of materials differently Material handling equipment.

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