KR101759277B1 - Apparatus for fixing transformer of electric power transformation - Google Patents

Abstract

The present invention relates to a fixing device for a transformer, and more particularly, to a transformer for fixing a transformer, and more particularly, to a transformer for preventing a transformer from being exploded by overheating while ensuring fixing convenience and stability stability on installation of the transformer, To prevent the breakage of the transformer and to maintain it stably.

Description

[0001] The present invention relates to an apparatus for fixing a transformer,

[0001] The present invention relates to a fixing device for a transformer for a transformer, and more particularly, to a transformer fixing device for preventing the explosion of an insulating oil tank of a transformer by overheating while ensuring fixing convenience and fixing stability on the installation of the transformer, The present invention relates to a fixing device for a transformer for a transformer, which is capable of detecting fluctuations in advance to prevent breakage and to be stably maintained.

Generally, a high voltage transformer for electric power is constituted in a power system, and receives a voltage from a power plant and plays an important role in transmitting power to a customer through a boost and a depressurization.

The following explains that transformers are used in substations of 154 KV or higher, and circuit breakers, disconnectors, ancillary equipment, lightning arresters, and protection switchboards are used in the field of substation technology above 25.8 KV.

(22.9kV) transmission lines and commercial voltage (230V, 380V) distribution lines are installed in an insulated state.

In the telephone pole, a transformer is provided for supplying the commercial voltage distribution line with the current of the extra-high voltage transmission line down to a commercial voltage.

Conventionally, when fixing the transformer on the mains, a method of fixing the transformer to the mains by fixing the band on the main body and connecting the coupling and the band with bolts and nuts is widely used .

However, in the conventional method of fixing the transformer, the connecting piece is fixed to the outer circumferential surface of the tank of the transformer by welding, and the painting is performed by rustproof paint after welding. However, The rust of the rust is gradually diffused and the portion becomes vulnerable to the pressure. In the worst case, the insulation oil leaks due to the puncture, and the rainwater penetrates into the tank, resulting in the risk of insulation breakdown. There was a problem.

In order to fix the transformer to the mains, the connecting piece welded to the outer circumference of the transformer tank and the connecting piece fixed with the band and the bolt / nut are fixed to the electric wire with bolts / nuts. Since the fixed state of the transformer is not stable, Therefore, when a strong wind is blown, a transformer may fall off while flowing, causing an accident to crash, and there is a problem in that it causes a second accident such as a loss of life or an object accident due to a fall of the transformer.

On the other hand, electricity usage has been rapidly increasing due to the recent increase in the number of facilities and convenience facilities for electricity use such as cooling load and computer, and this phenomenon is appearing as an increase in overloaded areas and underloaded areas.

As a result, the load applied to the column and ground transformers located at the end of the system is increased irregularly, and frequent insulation breakdown occurs due to deterioration due to overloading and deterioration due to the external environment.

In addition, the transformer used in the transmission and distribution line usually has a different structure depending on the capacity and voltage, but the main part is a wire and an iron core, which is filled in the tank to fill up the insulating oil. So that the heat generated from the iron core or the electric wire can be dissipated by convection or radiation of the oil.

1, a transformer 14 and a housing (not shown) for enclosing the transformer 14 are connected to the transformer 14, And an insulating oil tank 16 mounted on the upper surface of the housing 12 so that the insulating oil in the insulating oil tank 16 can flow to the outside of the housing 12 And a side end of the insulating oil discharge hole is connected to an insulating oil discharge hole 13 formed in an upper side wall of the housing 12. The insulating oil discharge hole 13 is connected to the insulating oil discharge hole 13, Is closed by the rupturing cap (30) to rupture when the pressure of the insulating oil discharged through the insulating oil discharge pipe (20) becomes the set value or more.

Therefore, when the pressure inside the insulating oil tank 16 is within the reference value, the insulating oil discharge hole 13 is closed by the rupture cap 30, so that the insulating oil is not discharged to the outside through the insulating oil discharge pipe 20, When the internal pressure of the insulating oil tank 16 rises so that the explosion of the tank 16 is likely to occur, the bursting cap 30 is ruptured by the pressure of the insulating oil to be discharged through the insulating oil discharge pipe 20, So that the insulating oil is discharged to the outside through the side wall on the housing 12, thereby suppressing the explosion.

However, in such a conventional structure, when there is a risk of explosion of the insulating oil tank 16, the insulating oil is discharged to the outside of the housing 12, resulting in the waste of the insulating oil, resulting in waste of the insulating oil, There is a problem that the environment is contaminated.

Korea Patent Registration No. 10-1554855 (2015.09.16.) 'Fixing device of transformer for transformer'

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems in the prior art, and it is an object of the present invention to prevent the insulation oil tank of the transformer from being exploded by overheating while ensuring fixing convenience and fixing stability on the installation of the transformer, The present invention has a main object of providing a fixing device for a transformer for a transformer, which is capable of detecting pressure fluctuation in advance to prevent breakage and to be stably maintained.

In order to achieve the above-mentioned object, the present invention provides a method of discharging an insulating oil in an insulating oil tank (16) mounted in a housing (12) of a transformer to an insulating oil discharge hole (13) formed in an upper wall of a housing An insulating oil discharge pipe (100); An insulating oil receiving wall (200) extending upward from an upper side wall outer side surface of the housing (12) and surrounding the insulating oil discharge hole (13); A lid 300 covering a portion surrounded by the insulating oil receiving wall 200; And an inflow prevention protrusion 400 surrounding the edge of the insulation oil discharge hole 13 and extending upward so that the insulation oil discharged through the insulation oil discharge hole 13 does not flow into the insulation oil discharge hole 13 and,

The lid 300 has a side wall extending downward from the edge portion and coupled with the insulating oil receiving wall 200 by a fastening screw 320; A slot 310 having an upper and a lower length is formed on a side wall of the lid 300 so that the lid 300 is coupled to the insulating oil receiving wall 200 And is configured to be movable up and down; The bottom surface of the lid 300 is spaced apart from the top of the insulating oil receiving wall 200; Further comprising a filter (500) coupled between a bottom surface of the cover (300) and an upper end of the insulating oil receiving wall (200) to prevent discharge of insulating oil to the outside of the insulating oil receiving wall (200) The upper end of the inflow preventing jaw 400 formed in the insulating oil discharge hole 13 is vertically extended to make a discharge hole socket 600; An exhaust bore thread 610 is formed on the inner circumferential surface of the exhaust hole socket 600 by tapping; The sensor socket (700) is screwed into the exhaust hole socket (600); The sensor socket 700 has a sensor thread 710 formed on the outer circumferential surface of the sensor socket 700 so as to be screwed with the exhaust hole thread 610, The upper portion of the detector socket 700 forms a cylindrical sensor body 720 with a stepped portion therebetween; A protrusion 722 protruding toward the center of the circle along the circumferential direction is formed on the inner circumferential surface of the upper end of the detector body 720; The upper end of the detector body 720 is open; A portion of the length penetrates the radial direction so that the rotating shaft 724 is inserted; The rotation shaft 724 is rotatably fitted with a spherical shaft fitting portion 726; A flexible valve plate 728 in the form of a funnel is integrally formed on the shaft fitting portion 726; A coil spring 730 having a larger diameter is buried in the outer peripheral surface of the upper side of the plate film 728; A plurality of ribs R are projected toward the center of the circle at intervals in the circumferential direction on the upper opening of the detector body 720; A boss (B) is fixed to the center of the circle; A pressure detecting sensor P is disposed at the center of the boss B to expose the lower portion of the boss B in a downward direction; The pressure detecting sensor P is connected to the controller C through the drawn lead L; The controller C includes a memory unit M and a warning unit A. The controller C is provided on one side of the housing 12 and is capable of performing wired / wireless communication with a central control room located at a remote location The valve plate 728 is opened so that the pressure of the insulating oil is increased through the insulating oil discharge hole 13 and the pressure detection sensor P The controller (C) judges whether the controller (C) is an appropriate pressure according to the signal and warns or sends an alarm signal to the central control room;

The stationary pocket 2200 having a sliding groove 2300 protruding in a 'C' shape from one side of the tank inner wall 2100 is formed in the insulating oil tank 16, And a shaft member 2600 inserted into the fixing pocket 2200 along the sliding groove 2300 and exposed through the opening 2400 is formed in the fixing pocket 2200. [ C2 and C3 are divided by a plurality of partitions 2640 into a plurality of chambers C1, C2 and C3, respectively, and the axle cooling member 2600 is a stretchable rectangular tube formed of neoprene. And a communication hole 2660 is formed on the upper and lower sides of the partition wall 2640 so that the axial coolant flows into the chamber C1 , C2, C3);

And a housing pocket 2750 into which the housing 12 is inserted. The housing pocket 2750 is fixed to the electric pole 2700 so that the housing pocket 2750 is engaged with the electric pole 2700, And a connection groove 2720 formed at a predetermined depth and communicating with the rectangular groove 2710 in a radial direction of the electric pole 2700 is formed at a predetermined depth in a circumferential direction of the electric pole 2700, A fitting recess 2730 connected to the connecting recess 2720 is formed at a predetermined depth and is inserted into the fixing recess 2710 and the connecting recess 2720 and the fitting recess 2730, And the housing pockets 2750 are integrally fixed to the outer surface of the fixing hooks 2740. The fixed pegs 2740 may be fixed to the fixing pegs 2740. [

According to the present invention, it is possible to prevent the insulation oil tank of the transformer from being exploded by overheating while securing the fixing convenience and the fixed stability on the installation of the transformer, and to prevent the breakage of the insulation oil tank Can be obtained.

Figure 1 is an exemplary perspective view of a conventional transformer.
2 is an exemplary exploded perspective view of a transformer in accordance with the present invention.
3 is a partial cross-sectional view of Fig.
4 is a partial cross-sectional view showing an operation example of a transformer according to the present invention.
5 is a partial cross-sectional view illustrating an example of installation of a detector main body for internal pressure fluctuation detection applied to a transformer according to the present invention.
6 is an enlarged view of an installation example of a shaft cooling member applied to an inner wall of an insulating oil tank of a transformer according to the present invention.
7 and 8 are illustrations of a transformer fixing apparatus according to the present invention.

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

Before describing the present invention, the following specific structural or functional descriptions are merely illustrative for the purpose of describing an embodiment according to the concept of the present invention, and embodiments according to the concept of the present invention may be embodied in various forms, And should not be construed as limited to the embodiments described herein.

In addition, since the embodiments according to the concept of the present invention can make various changes and have various forms, specific embodiments are illustrated in the drawings and described in detail herein. However, it should be understood that the embodiments according to the concept of the present invention are not intended to limit the present invention to specific modes of operation, but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

2 to 4, a transformer having an explosion-proof function of an insulating oil tank according to the present invention includes a transformer for preventing the explosion of the insulating oil tank 16 mounted inside the housing 12, An insulating oil discharge pipe 100 for discharging the insulating oil to the insulating oil discharge hole 13 formed in the upper side wall of the housing 12 and a pressure of the insulating oil discharged from the insulating oil discharge pipe 100, An insulating oil receiving wall 200 extending upward from the outer side wall of the upper wall of the housing 12 and surrounding the insulating oil discharge hole 13; (300) covering a portion surrounded by the cover (200).

Since the insulating oil discharge pipe 100 and the rupture film 110 are the same as the insulating oil discharge pipe 20 and the rupture cap 30 which are applied to the explosion-proof structure of the conventional insulating oil tank 16 shown in FIG. 1, A detailed description thereof will be omitted.

However, the rupture cap 30 applied to the explosion-proof structure of the conventional insulating oil tank 16 is a cap structure detachable from the upper wall of the housing 12, The rupture membrane 30 and the rupture membrane 110 are only different in shape from each other. However, when the pressure of the insulating oil becomes equal to or higher than the set value, The function and effect of rupturing to open the hole 13 can be substantially the same.

In other words, the rupture membrane 110 included in the present invention may be replaced by the rupture cap 30 referred to in the prior art.

The present invention is characterized in that the insulating oil receiving wall 200 and the lid 300 are provided to store the insulating oil discharged to the outside of the upper side wall of the housing 12 through the insulating oil discharge pipe 100 and the insulating oil discharge hole 13 There are different features from those of the prior art.

When the insulating oil receiving wall 200 and the lid 300 are provided as described above, the inner pressure of the insulating oil tank 16 is raised to be higher than the reference value and the insulating oil is discharged through the insulating oil discharge pipe 100 and the insulating oil discharge hole 13 to the housing 12 The user can collect, process, and reuse the insulating oil, which is contained in the space formed by the insulating oil receiving wall 200, because the oil is discharged into the space formed by the insulating oil receiving wall 200.

Therefore, the use of the explosion-proof device of the insulating oil tank according to the present invention has an advantage that waste oil and environmental pollution can be prevented.

If the internal pressure of the insulating oil tank 16 drops after the discharge of the insulating oil, the insulating oil discharged through the insulating oil discharge hole 13 may flow into the insulating oil tank 16 through the insulating oil discharge hole 13 The insulating oil discharged through the insulating oil discharge hole 13 contacts the outer surface of the inner surface of the insulating oil receiving wall 200 and the outer surface of the side wall of the housing 12, There is a serious problem that if the contaminated state is reintroduced into the insulating oil tank 16 as it is contaminated, the insulating oil tank 16 and the transformer are broken down.

In order to prevent the insulating oil discharged through the insulating oil discharge hole (13) from flowing back into the insulating oil discharge hole (13), the inlet bushing (400) ).

If the inflow preventing tuck 400 is additionally provided, the insulating oil that has been discharged once does not flow into the insulating oil tank 16 again. Therefore, it is possible to prevent the breakdown of the insulating oil tank 16 and the transformer by using contaminated insulating oil. .

Since the insulating oil is discharged through the insulating oil discharge hole 13, not only the insulating oil but also the high-pressure vapor is discharged. Therefore, the space between the insulating oil receiving wall 200 and the lid 300 The pressure inside the chamber is increased.

At this time, when the lid 300 is fixedly coupled to the insulating oil receiving wall 200, the pressure rise in the insulating oil storage space accumulates, and the components may be damaged or damaged.

The lid 300 has a side wall extending downward from the edge and coupled with the insulating oil receiving wall 200 by a fastening screw 320. The fastening screw 320 is formed on the side wall of the lid 300, A slot 310 having an upper and a lower length is formed at a position where the lid 300 penetrates the lid 300 so that the lid 300 is coupled with the insulating oil receiving wall 200 and can be moved up and down.

4, when the pressure in the insulating oil storage space rises, the lid 300 is lifted up by the lid 300, The lower end of the side wall of the lid 300 is separated from the upper side wall of the housing 12, so that the pressure in the insulating oil storage space is lowered as the vapor is discharged to the outside.

In this embodiment, compressed air supply means 18 is provided on one side of the insulating oil receiving wall 200 so that the lid 300 is connected to the insulating oil receiving wall 200 and the compressed air supply means 18, When the compressed air supply means 18 is not located at one side of the insulating oil receiving wall 200, the lid 300 is connected only to the insulating oil receiving wall 200 Can be combined.

A filter 500 is provided between the bottom of the lid 300 and the upper end of the insulating oil receiving wall 200 so that the insulating oil is not discharged into the space between the lower end of the side wall of the lid 300 and the upper side wall of the housing 12. [ ) Is further provided.

Of course, the filter 500 should be made of a material that can pass through only the vapor without passing the insulating oil.

In addition, the length of the filter 500 is preferably set to be large so that the filter 500 is not damaged even if the lid 300 is raised as much as possible.

In the present invention, the above-described embodiment merely temporarily stores the fact that the oil tank 16 is ejected by the internal pressure fluctuation of the insulating oil tank 16, and furthermore, at the time when the internal pressure fluctuation of the insulating oil tank 16 occurs, So that it is possible to manage the transformer more stably by keeping the subsequent management quickly, and it is possible to further include another embodiment capable of preventing an unfortunate secondary facility accident due to insufficient oil insulation .

5, the upper end of the inflow preventing jaw 400 formed in the insulating oil discharge hole 13 is vertically extended by a predetermined length to form a discharge hole socket 600, An exhaust bore thread 610 is formed on the inner circumferential surface of the socket 600 through tapping.

The sensor socket 700 is screwed into the exhaust hole socket 600.

The sensor socket 700 has a sensor thread 710 formed on an outer circumferential surface of the sensor socket 700 so that the sensor socket 700 is formed into a threaded connection with the exhaust hole thread 610. The upper portion of the sensor socket 700 is connected to the sensor body 720 ).

The detector main body 720 is a cylindrical member, and a jaw 722 protruding toward the center of the circle along the circumferential direction is formed on the upper end circumferential surface.

In addition, the upper end of the detector body 720 is opened, and a rotation shaft 724 is inserted into a part of the length thereof in a radial direction.

The rotation shaft 724 is rotatably fitted with a spherical shaft fitting part 726 and a funnel-shaped flexible valve film 728 is integrally formed on the shaft fitting part 726.

That is, the shaft fitting portion 726 and the valve film 728 are made of, for example, rubber or silicone, and are integrally formed through an injection method.

Therefore, when the valve plate 728 is stretchable, the upper portion of the sensor main body 720 is opened by the pressure applied from below, and when the pressure is applied in the reverse direction, (720).

Particularly, it is preferable that the upper end of the valve film 728 is positioned below the jaw 722 to increase the airtightness when back pressure is generated or when foreign substances such as fluid intrude from the outside.

Further, when the coil spring 730 having a larger diameter is buried in the outer peripheral surface of the upper side of the plate film 728, the elastic sealing force can be further increased.

A plurality of ribs R are projected toward the center of the circle at intervals in the circumferential direction on the upper opening of the detector body 720. A boss B is fixed to the center of the circle, And a pressure detecting sensor P having a lower portion exposed downward is installed at the center.

The pressure detecting sensor P is connected to the controller C via the lead wire L drawn out and the controller C includes a memory unit M and a warning unit A, C may be provided on one side of the housing 12 and may be capable of wired / wireless communication with a central control room located at a remote location.

Thus, when pressure fluctuation occurs in the insulating oil tank 16 and the insulating oil rises to be ejected through the insulating oil discharge hole 13, the pressed valve film 728 is opened, and the insulating oil ejected by the pressure is detected by the pressure detecting sensor P).

Then, the detected pressure is confirmed by the controller C, and when the confirmed pressure deviates from the set pressure range stored in the memory unit M, an alarm is generated through the alarm unit A and a warning is issued to the central control room of the remote place Signal is transmitted and can be immediately checked and managed in real time.

Further, even if the insulating oil flows over the inflow preventing jaw 400, the valve film 728 is completely hermetically sealed, so that the discharged insulating oil does not flow backward.

Particularly, since the rotation shaft 724 passes through the sensor body 720 in the radial direction, the oil may leak due to a gap in which the rotation shaft 724 is fitted.

Therefore, in order to prevent this, it is necessary to configure the chamber 742 having a volume larger than the inlet on the end face of the shaft hole 740 in which the rotary shaft 724 is inserted, thereby constructing a kind of mechanical seal It is configured to be fully sealed.

In addition, a cap projection 744 is protruded around the shaft hole 740 of the sensor body 720 outside the shaft hole 740, and a sealing cap 746 screwed to the cap projection 744 is provided to cover the shaft hole 740 740).

As described above, the present invention also detects the internal pressure fluctuation of the insulating oil tank 16 and uses it as management information, thereby making it possible to more securely and reliably manage the transformer.

6, a fixing pocket 2200 having a sliding groove 2300 protruding in a 'C' shape from one side of the tank inner wall 2100 is further formed inside the insulating oil tank 16 The opening portion 2400 cut in a predetermined size is formed on the front surface of the fixing pocket 2200. The opening portion 2400 is inserted into the fixing pocket 2200 along the sliding groove 2300, And a shaft member 2600 which is exposed through the shaft member 2600.

At this time, the shaft member 2600 is a square tube formed of a stretchable material such as neoprene, and then the shaft member is injected, and then the shaft member is sealed to complete the sealing member. Therefore, at the time of maintenance, the shaft cooling member 2600 itself should be replaced with a new one instead of filling the shaft cooling member. This is to maintain the tight sealability so that leakage does not occur.

In particular, a hooking flange 2620 is further formed around the compression member 2600, and the hooking flange 2620 is inserted into the sliding groove 2300 and can not be released to the opening 2400, The shaft member 2600 can be easily and quickly fixed.

The axial cooling member 2600 is divided into a plurality of chambers C1, C2 and C3 by a plurality of partition walls 2640. In the chambers C1, C2 and C3, And a communication hole 2660 is formed only above and below the partition 2640 so that the axial coolant can move through the chambers C1, C2, and C3 in accordance with expansion and contraction.

In addition, as the axial coolant, a hydrofluorocarbon-based refrigerant R134a (CF3-CH3F) and paraffin and a rare earth element Gd (gadolinium) oxysulfide are mixed at a weight ratio of 1: 8: 1 .

Therefore, in the present invention, since the inside of the insulating oil tank 16 is cooled and controlled to a relatively uniform temperature by the shaft cooling, the exothermic expansion can be minimized.

In addition, a protective coating layer is spray-coated on the outer side surface of the housing 12 to have heat resistance, durability, longevity and cold resistance.

The coating composition to be spray-coated was prepared by mixing 5 wt% of a mixture of nylon 66 and aluminum powder in a weight ratio of 9: 1, and a mixture of polyisoprene and silica powder having a particle size of 0.1-0.2 μm in a weight ratio of 4: 1 10 wt% of a molded product in the form of a mixture of barium ricinoleate, 2.5 wt% of sodium silicate, 1.5 wt% of N-ethyl-carbazole methacrylate, 1.5 wt% of tetraisopropyltitanate, 3% by weight of behenic acid, 2.5% by weight of dioctyl azide (DOA), 5% by weight of carboxymethylcellulose salt, 2.5% by weight of styrene monomer, 2% by weight of dicyanamine and the remaining bisphenol A type epoxy resin powder.

At this time, the mixture of the nylon 66 and the aluminum powder in a weight ratio of 9: 1 is added to effectively apply the insect repellency of the nylon 66 and the heat dissipation characteristics of the aluminum powder on the coated surface.

In addition, the polyisoprene and the silica powder having a particle size of 0.1-0.2 μm are mixed in a weight ratio of 4: 1. The polyisoprene is a natural rubber component having excellent insulating properties, and the silica powder Is not only a crystalline structure with a high Mohs hardness but also a very low degree of thermal expansion, thus enhancing the crack resistance against changes in the external atmosphere.

In addition, the barium ricinoleate is added in order to suppress the thermal decomposition of the coating layer as much as possible and prevent the coating layer from easily deteriorated, thereby improving shape retentivity.

In addition, the sodium silicates are added to enhance the heat stability and insulation of the coating layer by inducing gelation to form a coating.

In addition, the N-ethyl-carbazole methacrylate is added in order to prevent cracking of the coating layer while enhancing transparency.

Furthermore, the tetraisopropyltitanate is added as a coupling agent having an organic titanate structure to enhance both the durability and the heat resistance by enhancing the interfacial adhesion between the polymer resin and the inorganic material.

The behenic acid is added to enhance the lubricity of the resin to improve the coating property, and the dioctyl azide (DOA) is added to increase the cold resistance of the coating layer while increasing the plasticity of the resin.

In addition, the styrene monomer is added in order to increase the crosslinking density of the coating layer and increase the impact resistance and abrasion resistance.

7 and 8, a rectangular groove 2710 is formed in the center of the upper end of the electric pole 2700 in order to prevent the risk of falling damage or a safety accident while easily and quickly installing the housing 12, And a connecting groove 2720 which is formed at a predetermined depth and communicated with the rectangular groove 2710 in the radial direction of the electric pole 2700 is formed at a peripheral surface of the electric pole 2700, A fixing recess 2740 is formed at a predetermined depth and is inserted into the connection recess 2720 and the fitting recess 2730 so that the fixing recess 2730 can be engaged with the fixing recess 2730. [ And a housing pocket 2750 into which the housing 12 is inserted may be integrally formed on an outer surface of the fixing hook 2740.

At this time, when the lower end of the fixing hook 2740 is vertically bent toward the housing pocket 2750 to constitute the bending support portion 2742 and the lower end face of the housing pocket 2750 is fixedly supported thereby, Can be further increased.

In addition, it is particularly preferable that the door 2752 is rotatably opened and closed on the front surface of the housing pocket 2750, thereby realizing simple maintenance without removing the transformer.

In addition, the fixing hook 2740 may be formed of a mixture of 70% by weight of a polycarbonate resin and 30% by weight of a refractory insulation-reinforced additive in order to increase the insulating property, and the refractory insulation reinforcing additive is added to 100 parts by weight of the polycarbonate resin 5 parts by weight of glass fibers in the form of 0.5-0.7 mm, 8 parts by weight of talc fine powder ground to 0.5-1.0 占 퐉, 3 parts by weight of dolomite fine powder ground at a particle size of 0.5-1.0 占 퐉, 8 parts by weight of sinterable ground powder for improving durability 4.5 parts by weight of sodium silicate, 2.5 parts by weight of oxycarboxylate, 2 parts by weight of thiocyanic copper, 2 parts by weight of methylethylhydroxyethylcellulose, sodium sesquicarbonate (Na ₂ CO ₃揃 NaHCO ₃揃 2H ₂ O) 2.5 And 1.5 parts by weight of epichlorohydrin.

At this time, the glass fiber is added to maintain dimensional stability and stretch deformation property during molding as well as heat resistance and fire resistance.

In addition, the talc fine powder is a mineral which has high insulation property against electricity, strong in absorbency and fixability in powder form, and excellent in fire resistance, and is used as a refractory filler. Since the hardness is low, at least 8 parts by weight should be added.

In addition, the dolomite is added as a typical refractory material to increase the strength, and the molding property is deteriorated when it is added in an excessive amount.

The sinterable pulverized product for improving durability was prepared by mixing 20 wt% of silicon oxide, 10 wt% of boric acid, 10 wt% of acetic acid, 20 wt% of zinc oxide, 10 wt% of barium, 10 wt% of cobalt oxide, % By weight, followed by melt-sintering at 1500 DEG C and then pulverizing to a particle size of 1-2 mu m.

These components are added in order to enhance the bonding strength of the resin and increase the bonding force between the components to improve the durability.

Particularly, in order to further enhance the durability enhancement function of these materials, the mixture is sintered, pulverized and put into an ultra-fine powder state in order to increase the efficiency.

In addition, the sodium silicates are added to enhance heat resistance and insulation by inducing gelation to form a film.

In addition, the oxycarboxylate is added to reduce moisture content of the material to reduce voids and thereby increase strength.

The above-mentioned thiocyanum copper is a copper-based antifouling agent, and MEHEC (methylethylhydroxyethyl cellulose) is a cellulose derivative composed of anhydrous glucoside monomer chain and is added for enhancing maintenance function, surface activity, and chemical resistance.

In addition, the sodium sesquicarbonate (Na ₂ CO ₃揃 NaHCO ₃揃 2H ₂ O) is added for the purpose of enhancing the slip property of the surface, increasing the surface activity and preventing the foreign matter from adhering.

Further, the epichlorohydrin is a colorless liquid and added for stabilization of the surface protective layer.

100: insulating oil discharge pipe 110: rupture membrane
200: Insulating oil receiving jaw 300: Cover
310: slot 320: fastening screw
400: Inflow bail 500: Filter

Claims (1)

An insulating oil discharge pipe 100 for discharging the insulating oil in the insulating oil tank 16 mounted in the housing 12 of the transformer to the insulating oil discharge hole 13 formed in the upper side wall of the housing 12; An insulating oil receiving wall (200) extending upward from an upper side wall outer side surface of the housing (12) and surrounding the insulating oil discharge hole (13); A lid 300 covering a portion surrounded by the insulating oil receiving wall 200; And an inflow prevention protrusion 400 surrounding the edge of the insulation oil discharge hole 13 and extending upward so that the insulation oil discharged through the insulation oil discharge hole 13 does not flow into the insulation oil discharge hole 13 and,
The lid 300 has a side wall extending downward from the edge portion and coupled with the insulating oil receiving wall 200 by a fastening screw 320; A slot 310 having an upper and a lower length is formed on a side wall of the lid 300 so that the lid 300 is coupled to the insulating oil receiving wall 200 And is configured to be movable up and down; The bottom surface of the lid 300 is spaced apart from the top of the insulating oil receiving wall 200; Further comprising a filter (500) coupled between a bottom surface of the cover (300) and an upper end of the insulating oil receiving wall (200) to prevent discharge of insulating oil to the outside of the insulating oil receiving wall (200) The upper end of the inflow preventing jaw 400 formed in the insulating oil discharge hole 13 is vertically extended to make a discharge hole socket 600; An exhaust bore thread 610 is formed on the inner circumferential surface of the exhaust hole socket 600 by tapping; The sensor socket (700) is screwed into the exhaust hole socket (600); The sensor socket 700 has a sensor thread 710 formed on the outer circumferential surface of the sensor socket 700 so as to be screwed with the exhaust hole thread 610, The upper portion of the detector socket 700 forms a cylindrical sensor body 720 with a stepped portion therebetween; A protrusion 722 protruding toward the center of the circle along the circumferential direction is formed on the inner circumferential surface of the upper end of the detector body 720; The upper end of the detector body 720 is open; A portion of the length penetrates the radial direction so that the rotating shaft 724 is inserted; The rotation shaft 724 is rotatably fitted with a spherical shaft fitting portion 726; A flexible valve plate 728 in the form of a funnel is integrally formed on the shaft fitting portion 726; A coil spring 730 having a larger diameter is buried in the outer peripheral surface of the upper side of the plate film 728; A plurality of ribs R are projected toward the center of the circle at intervals in the circumferential direction on the upper opening of the detector body 720; A boss (B) is fixed to the center of the circle; A pressure detecting sensor P is disposed at the center of the boss B to expose the lower portion of the boss B in a downward direction; The pressure detecting sensor P is connected to the controller C through the drawn lead L; The controller C includes a memory unit M and a warning unit A. The controller C is provided on one side of the housing 12 and is capable of performing wired / wireless communication with a central control room located at a remote location The valve plate 728 is opened so that the pressure of the insulating oil is increased through the insulating oil discharge hole 13 and the pressure detection sensor P The controller (C) judges whether the controller (C) is an appropriate pressure according to the signal and warns or sends an alarm signal to the central control room;
The stationary pocket 2200 having a sliding groove 2300 protruding in a 'C' shape from one side of the tank inner wall 2100 is formed in the insulating oil tank 16, And a shaft member 2600 inserted into the fixing pocket 2200 along the sliding groove 2300 and exposed through the opening 2400 is formed in the fixing pocket 2200. [ C2 and C3 are divided by a plurality of partitions 2640 into a plurality of chambers C1, C2 and C3, respectively, and the axle cooling member 2600 is a stretchable rectangular tube formed of neoprene. And a communication hole 2660 is formed on the upper and lower sides of the partition wall 2640 so that the axial coolant flows into the chamber C1 , C2, C3);
And a housing pocket 2750 into which the housing 12 is inserted. The housing pocket 2750 is fixed to the electric pole 2700 so that the housing pocket 2750 is engaged with the electric pole 2700, And a connection groove 2720 formed at a predetermined depth and communicating with the rectangular groove 2710 in a radial direction of the electric pole 2700 is formed at a predetermined depth in a circumferential direction of the electric pole 2700, A fitting recess 2730 connected to the connecting recess 2720 is formed at a predetermined depth and is inserted into the fixing recess 2710 and the connecting recess 2720 and the fitting recess 2730, 2740), and the housing pocket (2750) is integrally fixed to the outer surface of the fixing hook (2740).

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