KR101802420B1 - Jig for Plating of Radiator - Google Patents

Abstract

The present invention relates to a jig for plating a radiator which can secure safety when performing plating work of a radiator and increase reliability of a product. The jig for plating a radiator comprises: a blocking unit including a jig flange with a coupling hole on a position corresponding to a radiator flange to be coupled to an inlet and an outlet of a refrigerant circulation pipe formed on a radiator to prevent a plating solution from flowing into the refrigerant circulation pipe, packing formed on one side thereof to prevent the plating solution from flowing into the inlet and the outlet of the refrigerant circulation pipe, and a discharge port on an inner side thereof to discharge gas and water in the refrigerant circulation pipe to the outside; and a connection means to fix and couple the blocking unit to the inlet and the outlet of the refrigerant circulation pipe formed on the radiator. When plating the radiator, plating work is performed while the plating solution is prevented from flowing into the refrigerant circulation pipe to perform plating without impeding a function of the radiator. When using high temperature plating to plate the radiator, water or gas remaining in the refrigerant circulation pipe can be discharged to safely plate the radiator. Only the inlet and the outlet of the refrigerant circulation pipe can be blocked without coming in contact with a surface of the radiator flange to plate the entire exterior of the radiator to improve durability of the radiator.

Description

Jig for Plating of Radiator}

The present invention relates to a radiator plating jig capable of enhancing the reliability of a product while securing safety during plating by preventing the plating solution from flowing into the refrigerant circulation pipe while plating the entire surface of the radiator during plating.

The radiator includes a tube through which the fluid can move, a grill, and an outlet. The radiator is a means for generating a temperature change at an installation position. The radiator performs a heater function for raising the temperature or a cooling function for lowering the temperature .

On the other hand, a radiator is installed in the power plant or the transformer to cool the generated heat.

Here, a transformer is a transformer that transforms a primary voltage applied to a primary into a required secondary voltage, which is supplied at a high voltage so that power transmitted from a power plant or a transmission station can be transmitted at a long distance. The voltage is lowered or raised to the voltage.

These transformers are installed in the places and equipment where they are needed. In particular, radiators are installed inside the tanks of the low-voltage and high-voltage transformers to cool or heat them.

Here, the radiator is painted or plated to ensure long life.

The radiator coating method is a method of removing all the oxides formed on the surface of the steel plate of the radiator or the anti-rust oil applied to suppress the generation of oxides, and then forming a rust-preventive zinc phosphate coating, The painting and the top painting were painted by an airless spray method.

(Patent Document 1) KR10-1055814 B1 Radiator coating method for transformer

(Patent Document 2) KR10-1347365 B1 Coating Method of Radiator for Transformer

On the other hand, in order to perform the coating or plating as described above, the foreign substances adhering to the surface of the radiator are completely removed through the pretreatment process as described above, and the coating or plating is performed.

In particular, when plating is performed, it is common to perform plating in a state that the inlet and the outlet of the pipe through which the fluid moves, so as to prevent the plating liquid from flowing into the inside.

If the plating is performed in a state in which the outlet and the inlet of the pipe are not closed, the plating liquid flows into the pipe to reduce the inner diameter, and the flow of the fluid to the heat- And heat exchange is not smoothly performed.

Also, in case of plating, since the plating must be performed using the molten plating solution, the temperature during working is formed before and after about 460 ° C in order to melt the plating of the metal.

If moisture or gas remains in the refrigerant circulation pipe in such a state, the gas or water remaining inside may expand due to the external temperature, and the radiator may be damaged. In case of severe case, the explosion of the radiator may cause personal injury .

In addition, the surface portion of the radiator contacting the blocking member during the blocking treatment at the mouth and the outlet side of the tube is not plated and corrosion occurs at the corresponding portion.

In order to solve the above-described problems, the radiator plating jig according to the present invention performs a plating operation while preventing the inflow of the plating liquid into the refrigerant circulation pipe through the blocking unit during plating of the radiator, thereby plating the radiator without hindering the function of the radiator. The present invention provides a jig for radiator plating.

Another object of the present invention is to enable the radiator to be plated safely by discharging moisture or gas remaining in the circulation pipe of the refrigerant during plating of the radiator using the high temperature plating liquid.

It is a further object of the present invention to provide a shielding unit and a connecting means for plating the entire outer surface of the radiator so that the coolant circulation pipe can be treated only on the exit side and the inlet side side without coming into contact with the surface of the flange for the radiator, thereby improving the durability of the radiator .

The present invention can perform plating operation while preventing the inflow of the plating liquid into the circulation pipe of the refrigerant through the interruption unit during plating of the radiator, thereby performing plating without impairing the function of the radiator.

In addition, when plating the radiator using high temperature plating, moisture or gas that can remain in the circulation pipe of the refrigerant is discharged, so that the radiator can be plated safely.

In addition, a shielding unit and a connecting means are formed so as not to come in contact with the surface of the flange for a radiator and to block only the outlet and inlet sides of the refrigerant circulation pipe, thereby plating the entire outer surface of the radiator, thereby improving the durability of the radiator. to be.

1 is a state view showing a state where the present invention is coupled to a radiator;
2 is an enlarged view of part A of Fig.
3 is a cross-sectional view of a radiator plating jig according to the present invention.

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

The present invention relates to a shielding unit 10 for shielding the inlet and outlet sides of a refrigerant circulation pipe 1b constituting a radiator 1 when a radiator 1 is plated, (20) for fixing the radiator (1) to the radiator (1).

First of all, the radiator 1 described above is a typical structure including a grill 1a for heat exchange, a coolant circulation pipe 1b through which refrigerant circulates, and a radiator flange 1c including a coupling hole h1. The description is omitted.

Next, the blocking unit 10 is configured to block the inlet and outlet sides of the refrigerant circulation pipe 1b constituting the radiator 1, as described above.

The shielding unit 10 includes a radiator flange 1c including a coupling hole h1 formed in the radiator 1 as shown in Figs. 2 to 3 and a corresponding coupling hole h2 A packing 15 for preventing the plating liquid from flowing into the inlet and the outlet of the refrigerant circulation pipe 11b during plating of the radiator 1 is formed and the inlet and outlet sides are closed And a discharge port 11b in the form of a curved shape for discharging the gas or moisture remaining in the circulation pipe 1b to the outside by the heat generated when the outside of the radiator 1 is plated, .

More specifically, the blocking unit 10 includes:

First, a flange 11a for a jig corresponding to the radiator flange 1c constituting the radiator 1 is formed on one side and a connection shaft 11c extending in the horizontal direction in the jig flange 11a is provided. And a body 11 having a discharge port 11b is formed inside the connection shaft 11c.

The discharge port 11b is provided to discharge water vapor or gas remaining in the refrigerant circulation pipe 1b of the radiator 1 and to discharge the plating liquid into the refrigerant circulation pipe 1b, Is formed to communicate with the refrigerant circulation pipe (1b), and the other side is bent in the form of a triangle so that the holes extend in the vertical direction.

A space 12a is formed by the body 11 and the bolt B so that a space can be formed between the body 11 and the body 11, A case 12 in which a sleeve engaging hole 12c having a step 12b is formed is formed.

The spring 13 is disposed in the space defined between the body 11 and the case 12 by the space 12a of the case 12 described above.

The spring 13 may be formed to be large enough to engage with the space 12a but may have a larger size than the sleeve engaging hole 12c. .

The spring 12 is disposed so as to be movable in the sleeve coupling hole 12c formed in the case 12 so as to be able to press the spring 13, Second and third sleeves 14b, 14c and 14d which engage with the outer circumferential surface of the connecting shaft 11c of the body 11 and the first sleeve 14a which engages with the first sleeve 14a and the second sleeve 14b in a state in which the movement of the first, A sleeve 14 is formed.

A special packing (p) may further be formed between the second, third and fourth sleeves (14b, 14c, 14d).

When the blocking unit 10 is coupled to the inlet and outlet sides of the refrigerant circulation pipe 1b between the first and second sleeves 14a and 14b, A packing 15 is provided.

Finally, a pressure generating nut 16 that can be fastened to a thread formed on the end of the connecting shaft 11c of the body 11 is coupled to the spring 13 disposed between the body 11 and the case 12 And pressurized.

Next, the connecting means 20 is a structure for fixing the blocking unit 10 to the radiator 1 in a fixed manner.

The connecting means 20 includes a first shaft 21a which forms a thread at an end capable of engaging with the engaging hole h2 formed in the flange 11a for the jig of the body 11 constituted in the interrupting unit 10, And a second shaft 21b extending from the first shaft 21a and inserted into the coupling hole h1 of the radiator flange 1c constituting the radiator 1 but having a smaller diameter than the coupling hole h1, And a shaft 21 having a third axis extending from the second axis 21b and having a larger diameter than the second axis 21b is formed.

In addition, a cap nut 22 that can be fastened to the threaded portion formed on the first shaft 21a is formed, and a fixing portion 23 which is engaged with the third shaft 21c is formed.

The fixing portion 23 preferably has a taper 23a formed to abut the engaging hole h1 of the radiator flange 1c constituting the radiator 1 and to widen the plated surface.

Therefore, when the worker joins the shielding unit 10 to the radiator 1 and then joins the shaft 21 of the connecting means 20 and then tightens it with the cap nut 22, the radiator 1 is provided with the shielding unit 10 ) Can be brought into close contact with each other, thereby improving the hermeticity.

Next, the pipe 30 is connected to the discharge port 11b formed in the shut-off unit 10, and is configured to discharge water or gas remaining in the circulation pipe 1b during plating.

Hereinafter, an embodiment of the radiator plating jig according to the present invention will be described.

First, the radiator 1 having been subjected to the pretreatment process for cleaning the surface is prepared.

Then, the blocking unit 10 is disposed on the inlet and outlet sides of the refrigerant circulation pipe 1b constituting the radiator 1. [

That is, the packing 15 formed in the blocking unit 10 is disposed so as to contact the inlet and outlet sides of the refrigerant circulation pipe 1b to generate a sealing force.

The blocking unit 10 sufficiently tightens the pressure generating nut 16 before being placed in the radiator 1 so that the spring 13 located between the body 11 and the case 12 is compressed to form a preload do.

Then the first shaft 21a of the shaft 21 as the connecting means 20 is inserted into the coupling hole h1 of the radiator flange 1c constituting the radiator 1 so that the body of the shielding unit 10 To the engagement hole h2 of the flange 11a for the jig formed on the base 10.

At this time, the shaft 21 is engaged with the fixing portion 23 having the taper 23a formed therebetween, between the second and third shafts 21a and 21c of the shaft 21, When the taper 23a of the shaft 23 is disposed so as to be in contact with the surface of the radiator 1 where the coupling hole h2 is formed, Through the coupling hole (h2) of the shielding unit (10).

Then, the cap nut 22 is disposed on the thread formed on the end of the first shaft 21a and fastened, and then the spring 13 is tightened by screwing the cap nut 22 and the first shaft 21a. The packing 15 of the blocking unit 10 is brought into close contact with the inlet and outlet sides of the refrigerant circulating pipe 1b.

In particular, the spring 13 of the blocking unit 10 is pressed by the pressure generating nut 16 to form an elastic force.

Therefore, even if the cap nut 22 is slightly tightened, the sealing force of the inlet and outlet sides of the refrigerant circulation pipe 1b can be sufficiently formed through the packing 15 of the cut-off unit 10.

Then, the pipe 30 is connected to the discharge port 11b of the interruption unit 10.

When the joining of the radiator plating jig 50 of the present invention is completed as described above, the surface of the radiator 1 is plated using the molten plating solution.

Here, the above-mentioned plating liquid is a metal material, and the temperature before and after 460 占 폚 is maintained to maintain the molten state.

Therefore, when the radiator 1 is closed in the state where gas or moisture is present in the refrigerant circulation pipe 1b and the grill 1a in the plating process of the radiator 1, cracks may occur in the radiator 1 due to internal pressure, .

However, according to the present invention, the pipe 30 is connected to the discharge port 11b, so that moisture or gas remaining in the discharge port 11b can be discharged to the outside, thereby solving the above problems.

Particularly, when the plating liquid flows into the coolant circulation pipe 1b and the grill 1a through plating, the function of the radiator 1 can be lost due to the lack of the internal space.

However, the present invention is characterized in that the packing 15 of the shielding unit 10 is provided on the inlet and outlet sides of the refrigerant circulation pipe 1b constituting the radiator 1 through the pressure generating nut 16 and the cap nut 22 So that it is possible to solve the problem caused by the inflow of the plating liquid by blocking the inflow of the plating liquid during the plating process.

On the other hand, the packing 15 of the cut-off unit 10 is inserted into the inlet and outlet sides of the refrigerant circulation pipe 1b and is coupled to the radiator flange 1c such that no surface contact is made.

The second shaft 21b coupled to the coupling hole h1 of the radiator 1 in the shaft 21 of the coupling means 20 is formed to have a smaller diameter than the coupling hole h1, (23) formed with a taper (23a) so that the blocking unit (10) can be fixedly engaged with a surface of the base member

The flange 1c for the radiator and the coupling hole h1 for the radiator flange 1c and the radiator flange 1c for abutting against the tapered portion 23a of the fixing portion 23 are formed on the surface facing the shielding unit 10 during plating of the radiator 1, The plating can be performed on the entire surface of the substrate, thereby preventing corrosion and improving durability.

Although the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious to the technicians of.

1: Radiator
1a: Grill 1b: Refrigerant circulation pipe 1c: Flange for radiator
h1: Coupling hole
10:
11: Body
11a: flange for jig 11b: outlet 11c: connecting shaft h2: engaging hole
12: Case
12a: space portion 12b: engaging jaw 12c: sleeve engaging hole
13: spring
14: Sleeve
14a: first sleeve 14b: second sleeve 14c: third sleeve
14d: Fourth sleeve p: Special packing
15: Packing
16: Pressure generating nut
20: Connection means
21: Axis 21a: First axis 21b: Second axis 21c: Third axis
22: Cap nut
23: Fixing portion 23a: Tapered
30: pipe
50: Radiator plating jig

Claims (5)

The radiator 1 having the radiator flange 1c including the grill 1a and the refrigerant circulation pipe 1b and the coupling hole h1 formed at the inlet and outlet sides of the refrigerant circulation pipe 1b In a jig used for surface plating,
A coupling hole h2 is formed at a position corresponding to the flange 1c for the radiator so as to be coupled to the inlet and the outlet of the refrigerant circulation pipe 1b formed in the radiator 1 and to prevent the inflow of the plating liquid into the refrigerant circulation pipe 1b. And a packing 15 for preventing the plating liquid from flowing into the inlet and the outlet of the refrigerant circulation pipe 1b is formed on one side of the flange 11a, A shut-off unit (10) including an outlet (11b) for discharging gas and moisture inside the refrigerant circulation pipe (1b) to the outside;
And connecting means (20) for fixing the blocking unit (10) to the inlet and outlet sides of the refrigerant circulation pipe (1b) formed in the radiator (1).
The apparatus according to claim 1, wherein the shielding unit (10) is formed with a flange (11a) for a jig including a coupling hole (h2) at one end thereof and extends from the flange (11a) A body 11 having a connecting shaft 11c having a thread formed at an end thereof,
A space 12a is formed on the inner side of the surface contacting the body 11 with the body 11 and the bolt B to form a space spaced apart from the body 11 when engaged with the body 11, A case 12 in which a sleeve engaging hole 12c including a locking protrusion 12b is formed,
A spring 13 formed in the space between the body 11 and the case 11,
The coupling shaft 12c is coupled to the sleeve coupling hole 12c of the case 12 so as to extend in the direction in which the coupling shaft 11c of the body 11 extends and is engaged with the case 12 The first sleeve 14a is disposed in the space 12a of the connecting shaft 11c and the second, third and fourth sleeves 14b, 14c, and 14d are coupled to the outer circumferential surface of the connecting shaft 11c in the direction in which the connecting shaft 11c is connected. A sleeve 14,
A packing 15 formed between the first and second sleeves 14a and 14b of the sleeve 14 to seal the inlet and the outlet of the refrigerant circulation pipe 1b,
And a pressure generating nut (16) for pressing the sleeve (14) to form a preload by engaging with a screw thread formed at an end of the connecting shaft (11c) of the body (11).
2. The apparatus according to claim 1, wherein the connecting means (20) comprises a first shaft (21a) coupled with a coupling hole (h2) formed in a flange (11a) for a jig of the shielding unit (10) A second shaft 21b extending from the first shaft 21a and having a smaller diameter than a coupling hole h1 formed in the radiator flange 1c of the radiator 1 and a second shaft 21b formed on the second shaft 21b, A shaft 21 having a third shaft 21c extending from the first shaft 21a and having a larger diameter than the second shaft 21b and a cap nut 22 coupled to an end of the first shaft 21a, And a fixing portion (23) which is engaged with the third shaft (21c).
The torsion coil spring according to claim 3, wherein a taper (23a) is formed on a surface of the fixed portion (23) which engages with the second shaft (21b) of the shaft (21) constituting the connecting means (20) Radiator plating jig characterized by being.
The jig for radiator plating according to claim 1, characterized in that a pipe (30) is further included in the outlet (11b) formed in the blocking unit (10).

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