KR200449859Y1 - Cable conductor extraction equipment - Google Patents

Abstract

The present invention relates to a conductor extracting device for cables, and insulators in consideration of various conductor outer diameter tolerances of underground distribution cables when samples for failure analysis of underground distribution cables using cross-linked polyethylene (XLPE) as an insulator The present invention relates to a conductor extractor for a cable, which enables the conductor to be extracted without damage.

In order to achieve the above object, the present invention does not require electric power for energy saving, and the manual hydraulic pump generates power through the raised hydraulic pressure by manually operating the lever, and the manual hydraulic pump via the hydraulic hose. A hydraulic ram having a piston to which the driving force is transmitted and moving in the front-rear direction, a rod-shaped conductor extracting rod capable of transferring the pressing force of the piston mounted on the hydraulic ram to a sample-shaped cable, and extracting the conductor from the cable; Including a sample inlet in which the cable is located so that the center of the conductor extraction rod and the cable located below it coincides before the pressing force of the conductor extraction rod, and the sample support for storing the conductor separated from the cable by the pressing force of the conductor extraction rod To provide a conductor extracting device for the cable is configured.

Cable, Conductor Extraction Device, Manual Hydraulic Pump, Hydraulic Ram, Conductor Extraction Rod, Sample Feeder, Sample Support

Description

Cable conductor extraction equipment

The present invention relates to a conductor extracting device for cables, and more particularly, it is possible to extract a conductor without damaging the insulator when preparing a sample for failure analysis of underground distribution cables using cross-linked polyethylene (XLPE) as an insulator. The present invention relates to a conductor extracting device for a cable.

In general, cables have been introduced to domestic underground distribution systems in earnest as cross-linked polyethylene (XLPE) is used as an insulator.

As shown in FIG. 7, the XLPE insulated power cable includes a conductor 110, an inner semiconducting layer 120, an insulation layer (XLPE; 130) surrounding the conductor 110, and an insulation layer 130. The outer semiconducting layer 140, the neutral wire 150, the swelling tape 160 surrounding the neutral wire 150, and finally the outer shell 170 surrounding the swelling tape 160, the size of the conductor 110 Are divided according to the nominal cross-sectional area of 60, 200, 325, 600mm2.

Although the design life of the XLPE insulated power cable is more than 30 years, the probability of failure due to deterioration increases as 15 years pass. In particular, most of the causes of failure within 5 years are foreign matters, protrusions and voids in the cable insulator. Local defects such as.

Therefore, the analysis method used to identify the exact cause of failure of the cable insulator is performed by visual inspection and analysis of voids, foreign substances, protrusions, etc. in the cable insulator and placed in silicone oil at about 110 to 140 ° C. Observation after the insulator becomes transparent. If abnormality is found, it is carried out to analyze the Hot Oil Test, which performs precise observation using a microscope, and to analyze the tree and electric tree inside the insulator. Water tree degradation analysis (dyeing test), which is observed by washing the solution after heating the methylene blue solution for 10 minutes or longer, and thermal analysis (DSC; Differential Scanning calorimeter, OIT; Oxidation Induction Time) (Fourier Transform Infrared Spectroscopy (FT-IR)) to evaluate the degree of antioxidant and degradation in cable insulation, Making the ribbon-shaped sample the degree of crosslinking in the past due to the thickness and the analysis by analysis such as cross-linked to analyze the condition of the insulation, it shall be excluded, and is preceded by a sample prepared the remaining analysis visual inspection.

By the way, the apparatus for extracting the conductor 110 from the conventional XLPE insulated power cable is a tool for extracting the conductor 110 peeling while rotating the insulator spirally, and the extraction device for the conductor using a pneumatic and electro-hydraulic pump However, they inevitably damage the XLPE insulator, which is an important analytical sample.

In particular, when using the pneumatic and electro-hydraulic pump, it is difficult to control the speed, the damage and separation of the sample is expected, there is a problem that requires a separate control device for the speed control.

Therefore, the present invention was devised to solve the above problems, various conductor outer diameters of the underground distribution cable when the sample for failure analysis of the underground distribution cable using cross-linked polyethylene (XLPE) as an insulator In view of the tolerance, it is an object of the present invention to provide a conductor extracting device for extracting a conductor without damaging the insulation.

In order to achieve the above object, the present invention does not require electric power for energy saving, and a manual hydraulic pump 10 generating power through the raised hydraulic pressure by manually operating the lever 11; A hydraulic ram 20 having a piston which is driven in the front-rear direction by transmitting a driving force of the manual hydraulic pump 10 through the hydraulic hose 12; A rod-shaped conductor extracting rod 30 capable of transferring the pressing force of the piston mounted on the hydraulic ram 20 to the cable 100 in a sample form to extract the conductor 110 from the cable 100; A sample inlet 40 in which the cable 100 is positioned so that the center of the conductor extraction rod 30 and the cable 100 positioned below the conductor extraction rod 30 are transmitted before the pressing force of the conductor extraction rod 30 is transmitted; It characterized in that it comprises a sample pedestal 50, the conductor 110 is separated from the cable 100 by the pressing force of the conductor extraction rod 30 is stored.

As can be seen from the above, according to the cable conductor extracting apparatus according to the present invention, the conductor can be extracted without damaging the insulator in consideration of various conductor outer diameter tolerances of the underground distribution cable when manufacturing a sample for failure analysis of the underground distribution cable. It works.

Hereinafter, the configuration of the present invention with reference to the accompanying drawings in detail.

Attached Figure 1 is a side view showing a conductor extraction device for a cable according to the present invention, Figure 2 is a view showing a conductor extraction rod of the conductor extraction device for a cable according to the present invention, Figure 3 is a conductor for a cable according to the present invention It is a figure which shows the sample input port of an extraction apparatus, and FIG. 4 is a figure which shows the sample pedestal of the conductor extraction apparatus for cables which concerns on this invention.

The subject of the present invention is to make it possible to extract the conductors without damaging the insulator when preparing a sample for failure analysis of underground distribution cables using cross-linked polyethylene (XLPE) as an insulator.

To this end, the present invention, as shown in Figure 1, does not require power for energy saving, manual hydraulic pump 10 and the hydraulic hose for generating power through the increased hydraulic pressure by manually operating the lever 11, A hydraulic ram (20) having a piston (12) and a driving force transmitted to the manual hydraulic pump (10) and moved in the front-rear direction, and the pressing force of the piston mounted on the hydraulic ram (20) in the form of a sample cable A rod-shaped conductor extracting rod 30 capable of transferring the conductor 110 to the cable 100 and a conductor extracting rod 30 before the pressing force of the conductor extracting rod 30 is transmitted to the 100. ) And a conductor separated from the cable 100 by the pressing force of the conductor extracting rod 30 and the sample inlet 40 in which the cable 100 is located so that the center of the cable 100 positioned below the same coincides with the center of the cable 100. And a sample holder 50 in which 110 is stored. .

Here, the sample used in the analysis of the cause of the failure of the underground distribution cable 100 is to cut the cable 100 by a predetermined length unit to cover the outer shell 170, the center wire 150, the outer semiconducting layer 140. After the manual removal, the cable is extracted from the conductor 110 while minimizing damage to the insulator by using the conductor extractor for the cable according to the present invention.

Here, as shown in Figure 2, the conductor extraction rod 30 is made smaller than the outer diameter of the sample, the upper side is formed with a fixing groove 31 to be inserted and fixed to the piston of the hydraulic ram (20) It is composed of a pressing rod portion 32 extending to the lower end of the fixing groove 31 and having various diameters according to the specifications of the sample.

The sample inlet 40 is made about 10mm larger than the outer diameter of the sample (cable), as shown in Figure 3, the mounting groove 41 and the mounting groove 41, the sample is mounted through the conductor 110 is comprised by the through-hole part 42 of the passage form so that it can fall.

In addition, as illustrated in FIG. 4, the sample pedestal 50 is configured as an extraction groove 51 having a passage shape in which a sample dropped into the through hole 42 is extracted and stored.

At this time, the conductor extraction rod 30 and the sample inlet 40 is made separately according to the specifications of the sample, it is possible to selectively replace and use according to the specifications of the sample.

Reference numeral 60 denotes a frame for fixing the above components, and 70 denotes a wheel for giving mobility of the device.

Hereinafter, the operating principle of the conductor extraction device for a cable according to the present invention configured as described above will be described.

5 and 6 are an operation diagram showing an operating state of the conductor extraction device for a cable according to the present invention.

First, the cable 100 is cut in 10 cm units, and the sample in which the outer shell, the neutral wire, and the outer semiconducting layer are removed is selected and mounted on the sample inlet 40 suitable for the outer diameter of the insulator.

Next, the conductor extracting rod 30 suitable for the outer diameter of the conductor 110 of the sample is selected, and then mounted on the piston of the hydraulic ram 20.

Thereafter, when the lever 11 of the manual hydraulic pump 10 is operated, the hydraulic ram 20 is operated and the conductor extraction rod 30 is vertically lowered, so that the lower end of the conductor extraction rod 30 is the conductor of the sample. The speed of the manual hydraulic pump 10 is controlled until it contacts the outer diameter.

Centering the conductor extraction rod 30 on the center of the outer diameter of the conductor 110 of the cable 100 and repeating the operation of the manual hydraulic pump 10 several times while the conductor 110 by the pressing force of the conductor extraction rod 30 To be disconnected from the cable 100.

Thereafter, the conductor 110 is extracted while maintaining the circular shape through the sample pedestal 50.

In the above has been shown and described with respect to the preferred embodiment of the present invention, the present invention is not limited to the above embodiment, the technical field to which the present invention belongs without departing from the gist of the present invention claimed in the utility model claims Anyone of ordinary skill in the art of various modifications can be made, as well as such changes are within the scope of the claims.

1 is a side view showing a conductor extracting device for a cable according to the present invention,

2 is a view showing a conductor extraction rod of the conductor extraction device for a cable according to the present invention,

3 is a view showing a sample inlet of the conductor extraction device for a cable according to the present invention,

Figure 4 is a view showing a sample pedestal of the conductor extraction device for a cable according to the present invention,

5 and 6 is an operation showing the operating state of the conductor extracting device for a cable according to the present invention,

7 is a cross-sectional view showing a general underground distribution cable.

* Description of the symbols for the main parts of the drawings *

10: manual hydraulic pump 11: lever

12: hydraulic hose 20: hydraulic ram

30: conductor extraction rod 31: fixing groove

32: pressure rod 40: sample inlet

41: mounting groove 42: through hole

50: sample support 51: extraction groove

Claims (5)

There is no need for power to save energy, the manual hydraulic pump 10 for generating power through the increased hydraulic pressure by operating the lever 11 manually; A hydraulic ram 20 having a piston which is driven in the front-rear direction by transmitting a driving force of the manual hydraulic pump 10 through the hydraulic hose 12; A rod-shaped conductor extracting rod 30 capable of transferring the pressing force of the piston mounted on the hydraulic ram 20 to the cable 100 in a sample form to extract the conductor 110 from the cable 100; A sample inlet 40 in which the cable 100 is positioned so that the center of the conductor extraction rod 30 and the cable 100 positioned below the conductor extraction rod 30 are transmitted before the pressing force of the conductor extraction rod 30 is transmitted; Conductor extraction device for a cable, characterized in that it comprises a sample holder (50) for storing the conductor (110) separated from the cable (100) by the pressing force of the conductor extraction rod (30). The method of claim 1, The conductor extraction rod 30 is made relatively smaller than the outer diameter of the sample, the upper side is fixed groove portion 31 is formed to be inserted and fixed to the piston of the hydraulic ram 20, the lower end of the fixed groove portion 31 Conductor extracting device for a cable, characterized in that consisting of a pressing rod 32 having a diameter varying according to the size of the sample. The method of claim 1, The sample inlet 40 is made to be relatively larger than the outer diameter of the sample, the through-hole portion of the mounting groove 41 and the mounting groove portion 41 is mounted, the through hole of the conductor 110 so that the conductor 110 can fall through the mounting groove 41 Conductor extraction device for a cable, characterized in that consisting of (42). The method of claim 1, The sample pedestal (50) is a conductor extracting device for a cable, characterized in that consisting of a passage-shaped extraction groove 51 is extracted and stored in the through-hole portion 42 of the sample inlet (40). The method of claim 1, The conductor extracting rod (30) and the sample inlet 40 is a conductor extraction device for a cable, characterized in that configured to be detachable to the hydraulic ram (20) and the sample support (50), respectively.

Images