KR100929931B1 - Method for manufacturing cable gland used in flameproof electric wire piping - Google Patents

Abstract

PURPOSE: A method for manufacturing a cable grand for a flameproof wire pipe is provide to implement light cable grand by manufacturing components made of aluminum alloy. CONSTITUTION: Components(202,208) of a cable grand(200) is made by extruding and cutting an aluminum alloy material. A foreign material of surfaces of components is removed by the acid cleaning. A temperature of the electrolyte for the surface process of components is maintained between 4 and 5 degrees below zero by a freezer. The electrolyte includes the water and the organic acid with a ratio of 6:4. The components are anodized in the electrolyte for 60 to 80 minutes under the voltage of 50 to 60 V and the current of 2000A. The components are washed, dried, and assembled with the packing.

Description

Method for manufacturing cable gland used in flameproof electric wire piping}

The present invention relates to a method for manufacturing a cable gland for explosion-proof wire piping, and more particularly, to manufacture an cable gland made of aluminum alloy, and to anodize the surface thereof, thereby providing excellent wear resistance and preventing corrosion. It relates to a method for producing a conventional cable gland.

In general, facilities such as buildings constructed in areas handling dangerous goods or factory plants constructed in general industrial areas have piping facilities for various conduits, and various plumbing parts are used for the operation of such piping facilities.

In particular, plumbing facilities, such as buildings that are constructed in areas that handle dangerous goods such as petroleum or chemicals, such as gas, which are hazardous to explosions, must be strictly enforced to prevent explosions caused by various fires. In addition, in order to prevent safety accidents, a cable gland for explosion-proof wire piping is used for pipe connection such as conduit.

The cable gland 200 for explosion-proof wire piping used as described above is shown in FIG. 1 and FIG. 2, with assembly holes 202, wire fasteners 204, packing 206, and assembly nuts 208. It is a component that is used for packing and connecting various types of conduits.

However, the conventional cable gland for explosion-proof wire piping is made of iron alloys such as cast iron, so that its weight is heavy, which makes it difficult to transport and assemble. Therefore, there is a problem that the life of the product is shortened, there is also a material of the cable gland made of brass, but this is expensive, there was a problem that economic efficiency or productivity is not improved.

The present invention has been made to solve the above problems, it is possible to reduce the weight by manufacturing the cable gland for explosion-proof wire piping using aluminum alloy, in particular, the surface of the parts made of aluminum alloy to a predetermined condition It is an object of the present invention to provide a method of manufacturing a cable gland for explosion-proof cable piping, which has been subjected to anodizing surface treatment to provide excellent wear resistance and prevent corrosion.

The present invention for achieving the above object comprises the steps of extruding an aluminum alloy material and cutting to a predetermined length to produce an assembly sphere, a wire fastener and an assembly nut which is a part of a cable gland of a predetermined shape by machining; Removing the foreign substances on the surface by acid-washing the manufactured parts of the cable gland; Maintaining the temperature of the electrolytic solution in which water and organic acids are mixed at a 6: 4 ratio to the surface of the cable gland at a minus 4 to 5 ° C. by operation of a refrigerator; Putting the parts of the cable gland in which foreign matters were removed by the acid washing treatment into the electrolyte solution and performing anodization for 1 hour to 1 hour and 20 minutes under a current of 2000 A and a voltage of 50 to 60 V; It provides a method of manufacturing a cable gland for explosion-proof wire piping, characterized in that the step of washing and drying the components of the anodized cable gland.

In the present invention, the voltage condition is provided by starting the first 20V by 10V every 10 minutes intervals, it characterized in that the automatic boost by the timer to 50 ~ 60V.

In addition, the aluminum alloy material is characterized in that any one selected from aluminum alloy 6063, 6061, 5052.

The present invention provides the following effects through the problem solving means described above.

According to the present invention, the explosion-proof pipe gland can be reduced in weight by manufacturing the part using aluminum alloy, and in particular, the surface of the part of the cable gland for explosion-proof wire piping made of aluminum alloy material under predetermined conditions. By performing anodizing surface treatment, it is possible to provide improved abrasion resistance and corrosion resistance as compared with conventional cast iron products.

Hereinafter, a method of manufacturing a cable gland for explosion-proof wire piping according to the present invention will be described.

Generally, two methods are used to form a conversion layer on a metal surface. First, an oxide layer is formed on a metal surface chemically or electrochemically. Second, a chemical treatment method on an aluminum surface is chromate. There are treatments and boehmite treatments, which form an oxide layer on the aluminum surface in a chemical way without electricity.

However, this chemical surface treatment method has a limited application range because the oxide layer coating is thin or wear resistance is low, whereas anodizing, anodizing or anodizing, which is an electrochemical method, mainly uses sulfuric acid solution as an electrolyte. By forming an anodized film electrochemically on the surface of aluminum, it is possible to form a film having excellent mechanical, electrical and chemical properties.

According to the present invention, by hardening the components of the cable gland for explosion-proof wire piping by limiting the conditions for such anodizing process, it is possible to provide excellent wear resistance and corrosion resistance.

Here, the manufacturing method of the cable gland for explosion-proof wire piping of the present invention will be described in order.

3 is a process diagram illustrating a method of manufacturing a cable gland for explosion-proof wire piping according to the present invention.

First, an aluminum alloy material, preferably any one selected from aluminum alloy 6063, 6061, and 5052 is extruded, and then cut into a length capable of manufacturing parts of a predetermined cable gland.

Subsequently, the cut aluminum alloy extruded material is machined to produce an assembling tool 202, an electric wire fastener 204, and an assembling nut 208 which are parts of the cable gland 200 having a predetermined shape. At this time, the packing gland 206, which is a part of the cable gland, is also prepared.

Thus, the parts of the cable gland for explosion-proof wire piping can be made of aluminum without being made of conventional cast iron, etc., and the weight can be lightened. You can.

Next, the parts of the cable gland for explosion-proof wire piping are treated with an acid wash solution such as a nitric acid solution to remove foreign substances on the surface of the parts.

Subsequently, the parts of the aluminum cable gland from which debris has been removed by pickling treatment are subjected to aluminum hard hardening, that is, anodizing surface treatment.

The reason why the temperature of the electrolyte is maintained at minus 4-5 ° C is that the temperature of the electrolyte must be maintained at this temperature so that the best oxide film is formed on the surface of the parts of the cable gland made of aluminum, and the oxide film prevents wear and corrosion resistance. Because it can improve.

At this time, the electrolyte for the surface treatment of the components of the cable gland is a mixture of water and organic acids in a 6: 4 ratio to fill the electrolyte in the electrolyte tank.

Thus, the components of the cable gland for explosion-proof wire piping, in which the foreign substances are removed by the acid wash treatment, are electrolyzed for 1 hour to 1 hour and 20 minutes under a current of 2000A and a voltage of 50 to 60V.

The reason why it is carried out for 1 hour to 1 hour and 20 minutes under the current of 2000A and the voltage of 50 ~ 60V is because the anodization of the surface of the parts of the cable gland made of aluminum is obtained at the best level.

The voltage condition is described in more detail by using a power supply for supplying power, starting with the first 20V, and boosting by 10V every 10 minutes so that the auto-up is performed by a timer up to 50-60V. do.

At this time, when anodizing the parts of the cable gland for explosion-proof cable piping made of aluminum immersed in the electrolyte, the parts of the cable gland made of aluminum become the anode side, and the electrolyte tank is the cathode side. do.

After anodizing, that is, anodizing, washing and drying the parts of the cable gland for explosion-proof cable piping made of aluminum, and assembling the parts divided into several products into one.

Hereinafter, the present invention will be described in more detail based on the following examples, but the present invention is not limited to the following examples.

Example

Machined extruded material using aluminum alloy 6063 to fabricate the assembly of the cable gland assembly, the wire clamping hole and the assembly nut, and to remove the foreign matter by pickling the components of the produced cable gland, and then to minus 5 After putting the parts of the cable gland from which debris was removed by the acid wash treatment in the electrolyte at ℃, electrolyzed for 1 hour under the current of 2000A and the voltage of 60V for the anodization, and the parts of the cable gland subjected to the anodization Washed and dried to assemble with packing.

In the present invention, the cable gland for explosion-proof wire piping according to the embodiment can be reduced in weight than the conventional cable gland for explosion-proof cable gland cast iron, it can be seen that the mechanical properties such as hardness and wear resistance and corrosion resistance can be improved. there was.

As described above, the present invention has been described with reference to a preferred embodiment, but those skilled in the art will be practiced by various modifications of the present invention without departing from the technical spirit of the invention described in the claims. You can do it.

1 is a photograph showing the cable gland for explosion-proof wire piping.

Figure 2 is a photograph showing a part of the cable gland for explosion-proof wire piping.

3 is a process chart for explaining a method for manufacturing a cable gland for explosion-proof wire piping.

<Explanation of symbols for the main parts of the drawings>

200: explosion-proof cable piping cable gland 202: assembly

204: wire fastener 206: packing

208: Assembled Nut

Claims (3)

Extruding an aluminum alloy material and cutting it to a predetermined length to produce an assembly tool, an electric wire clamper, and an assembly nut which are parts of a cable gland having a predetermined shape by machining; Removing the foreign substances on the surface by acid-washing the manufactured parts of the cable gland; Maintaining the temperature of the electrolytic solution in which water and organic acids are mixed at a 6: 4 ratio to the surface of the cable gland at a minus 4 to 5 ° C. by operation of a refrigerator; Putting the parts of the cable gland in which foreign matters were removed by the acid washing treatment into the electrolyte solution and performing anodization for 1 hour to 1 hour and 20 minutes under a current of 2000 A and a voltage of 50 to 60 V; Washing and drying the components of the anodized cable gland and assembling them together with the packing; manufacturing method of the cable gland for explosion-proof wire piping. The method according to claim 1, The voltage condition is a method of manufacturing a cable gland for explosion-proof wire piping, characterized in that the automatic boosting by a timer to be up to 50 ~ 60V by stepping up by 10V every 10 minutes starting from the first 20V. The method according to claim 1, The aluminum alloy material is a method of manufacturing a cable gland for explosion-proof wire piping, characterized in that any one selected from aluminum alloy 6063, 6061, 5052.

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