KR101794324B1 - Protection type connection apparatus structure of underground distribution line - Google Patents

Abstract

The present invention relates to a protection connection apparatus structure of an underground distribution line. More particularly, the present invention relates to a protection connection apparatus structure of an underground distribution line which enables the outer space efficiency of an underground distribution body to be increased by enabling an underground distribution line to be properly inserted inside the underground distribution body without being stretched or being tangled outside the underground distribution line composed of a distribution box or a distribution board or the like. Meanwhile, the protection connection apparatus structure prevents a sheath of the underground distribution line from being hardened by moisture or the like by sealing an underground line insertion hole where the underground distribution line is inserted, thereby preventing a short circuit or the like.

Description

[0001] PROTECTION TYPE CONNECTION APPARATUS STRUCTURE OF UNDERGROUND DISTRIBUTION LINE [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a structure of a protective connection device for an underground distribution line in a distribution technology field, and more particularly to a structure of a protection connection device for an underground distribution line, So that the efficiency of the outer space of the underground ship can be increased while the underground line inserting hole for inserting the underground distribution line is sealed to prevent the coating of the underground distribution line from hardening by moisture etc. A short circuit, a short circuit, and the like.

The electricity distributed from the primary substation or the secondary substation is transmitted or distributed to the reception facilities of each customer through the transmission and distribution system composed of the processing distribution line and the underground distribution line. The electricity is distributed to the customer through the special high pressure customer, the high pressure customer and various outdoor installation transformers. It is used for industrial and domestic purposes.

Among them, the transmission and distribution system using the ground through the transmission and distribution system composed of the underground distribution line, the underground channel adapter is provided in the underground distribution line through which the underground distribution line is led, the plug is connected to the end of the underground distribution line, .

However, since the underground distribution line connection structure according to the related art is fastened to the underground channel adapter only when the plug is fixedly connected to the end of the underground distribution line, if the length of the underground distribution line is too long, The space efficiency is lowered and the worker's travel is made uncomfortable and the appearance is also disadvantageous.

On the other hand, Korean Patent Registration No. 10-1317908 (Oct. 16, 2013) discloses a protection connection mechanism with a ground distribution line.

However, such a conventional underground distribution line protection connection mechanism can not seal the open underground line inserting hole, and water and the like may be introduced into the empty space separated from the underground distribution line, thereby causing short-circuit and short-circuit.

Korea Patent Registration No. 10-1317908 (Oct. 16, 2013) 'Underground Distribution Line Protection Connection Device'

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide an underground power distribution system, in which an underground power distribution line is introduced, So that the outer space efficiency of the entire underground ship can be increased. Meanwhile, the underground line inserting hole into which the underground distribution line is inserted is sealed to prevent the underground distribution line from being hardened by moisture or the like, And to provide a grounded distribution line protected connection device structure for preventing the above problems.

The problems to be solved by the present invention are not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above-mentioned object, the present invention is characterized in that the underground distribution line (1) is provided in the shape of a cylinder in the underground distribution ship (3), and the underground distribution line An underground pipe adapter 200 formed with a male thread over the entire outer circumferential surface exposed to the outside of the underground ship 3; An underground line through hole (301) communicating with the underground line receiving port (201) is formed inside the underground line adapter (200) in a cylindrical shape having a male thread formed over the entire outer circumferential surface, The inner diameter of the underwater through hole 301 gradually decreases from the end portion of the channel adapter 200 toward the end contacting with the underground pipe adapter 200, Means (300); And a guide inserting hole 510 having a female screw thread formed on the entire inner circumferential surface so as to surround and fasten the ground guide adapter 200 and the grab guiding means 300 are formed in a cylindrical shape, And the grab guiding means 300 is horizontally disposed along the longitudinal direction inside the guide inserting opening 510 before being fastened to the grab guiding means 300. The grab guiding means 300 is guided by the guide The underground line grip portion 520 forming the underground line inserting hole 501 is deformed to be collapsed due to contact with the grab insertion guide portion 310 as it is gradually fastened to the inside of the insertion port 510, (500), and the grab guiding means (300) protrudes from the end portion contacting the underground channel adapter (200) toward the underground channel adapter (200) The underground pipe adapter 200 includes a plurality of fixing protrusions 400 formed symmetrically with respect to the periphery of the underground through hole 301. The underground pipe adapter 200 is provided with a fixing protrusion And the under gravity grasp portion 520 of the grappling means 500 is inserted into the guide inserting hole 510 inside the guide inserting hole 510. The guide inserting hole 510 is formed in the inner circumferential surface of the guide inserting hole 510, And a plurality of cut-out portions 521 are formed symmetrically along the circumference of the underground insertion hole 501 at an end which is smaller in inner diameter than the inner diameter of the underground line insertion guide portion 310 and is in contact with the grab insertion guide portion 310, The connecting device structure according to claim 1, further comprising a sealing means (600) for sealing the underground insertion port (501), wherein the sealing means (600) A sealing ring 610 coupled to And the sealing ring 610 is screwed around the underground line inserting opening 501 while a thread is formed on the outer circumferential surface of the sealing ring 610, Are connected to each other by a pair of sealing units 611 having a semicircular shape centered on the center line 1 and joined to each other so as to be in contact with each other, And the elastic member 614 is accommodated in the coupling groove 613. The coupling groove 613 is formed in the other end of the coupling groove 613, The elastic force of the elastic member 614 when the elastic member 614 is engaged with the underground line inserting hole 501 smoothly brings the elastic member 614 into close contact with the underground line inserting hole 501. On the other hand, (630) for coupling the sealing ring (610) to the underground insertion port (501), wherein the adjusting means (630) are connected to the pair of sealing units (611) A pair of connecting bars 631; And a pair of control levers (632) connected to the pair of connection bars (631), both ends of the control levers (632) being in contact with or adjacent to each other in a ring shape. Lt; / RTI >

According to the present invention, since the underground distribution line can be properly introduced into the inside of the underground ship without being stretched or tangled from the outside of the underground ship comprising the distribution board or the switchboard, the efficiency of the external space of the underground ship can be increased .

In addition, the underground line inserting port for inserting the underground distribution line is sealed to prevent the cover or the like of the underground distribution line from being hardened by moisture or the like, thereby preventing leakage and short circuit.

Further, when the grappling means is engaged, it can be coupled to the underground pipe adapter and the grab guiding means at the same time, so that stable binding can be induced together with quick detachment.

The effects of the present invention are not limited to those mentioned above, and other solutions not mentioned may be clearly understood by those skilled in the art from the following description.

1 is a side sectional view showing a state in which a protective connection device structure of a ground distribution line according to the present invention is coupled.
Fig. 2 is an exploded view showing a state before the protection connection device structure of the underground distribution line is connected in Fig. 1. Fig.
3 is an exploded perspective view of Fig.
4 is a side cross-sectional view showing another embodiment of the protection connection device of the underground distribution line according to the present invention.
5 is an exploded perspective view of Fig.
FIG. 6 is a side sectional view showing a state in which the sealing means is provided in FIG. 1;
7 and 8 are a perspective view and an exploded perspective view showing a sealing ring in the structure of a protection connection device for underground distribution line according to the present invention.
Fig. 9 is a side sectional view showing another example of the grappling means in Fig. 6. Fig.
10 is a side cross-sectional view illustrating a grappling means in the structure of a protective connection device for underground distribution lines according to the present invention.
11 is an exploded perspective view showing a state in which the adjusting means is coupled to the sealing ring in the structure of the protection connection device of the underground distribution line according to the present invention.
And
12 is a perspective view showing a state in which the adjusting means is coupled to the sealing ring in the structure of the protection connection device of the underground distribution line according to the present invention.

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

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. And should not be construed as limited to the embodiments described herein.

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.

It should be understood that the embodiments according to the concept of the present invention are not limited to the particular mode of disclosure but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

Since the present invention uses the following patent application 1317908 as it is, the features of the device configuration described below can be understood as those described in Patent Registration No. 1317908. [

However, according to the present invention, among the structures disclosed in the above-mentioned Japanese Patent No. 1317908, the underground distribution line protective connection mechanism is replaced with a protection connection structure of underground distribution line, and a structure for sealing the underground line insertion opening And this part is the most essential constituent feature.

Therefore, the device structure, characteristics, and operation relationship described below will be incorporated by reference in the above-mentioned Japanese Patent No. 1317908, and the structure related to the main features of the present invention will be described in detail at the rear end.

1 to 5, a structure of a protective connection device for underground distribution line (hereinafter referred to as "connection device structure") 100 according to the present invention includes an underground distribution line 3 is a perspective view of the underground pipe adapter 200 according to the first embodiment of the present invention; FIG. 3 is a perspective view of the underground pipe adapter 200; FIG. And a grab fastening means (500) provided thereon.

This allows the underground distribution line 1 to be connected to the underground ship 3 without being tangled or tangled on the outside of the underground ship 3 by the connection apparatus structure 100 regardless of the length of the underground distribution line 1 So that the space efficiency can be increased, the worker can easily pass through, and the appearance can be made clean.

The underground ship 3 can be a distribution box in the transmission system, and can be a distribution board in the reception system.

The ground distribution line 1 may be a line in which a plurality of underground distribution power lines are bundled inside.

As shown in FIGS. 1 and 3, the underground pipe adapter 200 is formed in a cylindrical shape in the underground ship 3, and an underground pipe receiving hole 201 through which the underground distribution line 1 passes is formed inside the underground pipe adapter 200 And a male thread is formed over the entire outer circumferential surface exposed to the outside of the underarm body 3.

As shown in FIGS. 1 to 3, the grab guiding means 300 is formed in a cylindrical shape having a male screw thread over the entire outer circumferential surface thereof, and has an underground through hole 301 communicating with the underground receiving hole 201, And the inner diameter of the underground penetrating hole 301 is gradually reduced from the end directed to the underground pipe adapter 200 toward the end contacting with the underground pipe adapter 200, Is formed inside.

In this way, male threads are formed on the outer circumferential surface of the underground pipe adapter 200 and the grip guide means 300, and a female screw thread is formed on the inner circumferential surface of the grappling means 500, The underground pipe adapter 200 and the grab guiding means 300 are clamped and tightened, so that the clamping force is further strengthened, and in particular, the clamping force can be further improved to prevent vibration loosening and the like.

As shown in FIG. 3, the grab guiding means 300 protrudes from the end contacting the underground channel adapter 200 toward the underground channel adapter 200 and extends along the circumference of the underground channel through hole 301 And includes a plurality of fixing protrusions 400 which are formed symmetrically with respect to each other.

The underground pipe adapter 200 may have a plurality of protrusion receiving grooves 210 formed on an inner circumferential surface thereof and corresponding to the fixing protrusions 400 along the perimeter of the underground receiving hole 201.

The grab guiding means 300 is brought into contact with the underground conduit adapter 200 before the grab guiding means 300 is fastened to the underground conduit adapter 200 by the grappling means 500, The fixing protrusion 400 is inserted into the protrusion receiving groove 210 so that the grab guiding means 300 can be fixedly coupled to the underground pipe adapter 200. Thus, 500 can be more easily performed.

1 to 3, the grappling means 500 includes a guide inserting hole 510 in which a female screw thread is formed so as to surround and fasten the grappling guide means 300 and the underground channel adapter 200 and the grab guiding means 300 Respectively.

The grappling means 500 is formed in a cylindrical shape so that the underground line insertion port 501 communicating with the underground line through hole 301 is formed and before the grappling means 500 is fastened to the grab guide means 300, The grip guide means 300 is horizontally moved along the longitudinal direction inside the grip guide means 300 and is gradually deformed due to contact with the grab insertion guide portion 310 as the grip guide means 300 is gradually fastened to the inside of the guide insertion hole 510, And an underground line grab 520 forming an insertion port 501 is provided inside.

2, before the underground channel adapter 200 and the grab guiding means 300 are fastened by the grappling means 500, the underground distribution line 1 is connected to the connection device structure 100 To be freely inserted into or withdrawn from the inside of the underground ship (3).

1, the underground wire grip portion 520 is compressed to grip the underground distribution line 1 in tight contact with the underground distribution line 1, Is inserted into the inside of the underground ship body (3) without being stretched or tangled outside the underground ship body (3) by the connection device structure (100) The efficiency can be increased, the worker can pass easily, and the appearance can be made neat.

That is, before the underground pipe adapter 200, the grip guide means 300 and the grappling means 500 are all engaged, the grab guide means 300 is connected to the underground distribution line 1), when the underground pipe adapter 200, the grab guide means 300 and the grappling means 500 are both fastened, the underground wire grip portion 520 is moved to the underground distribution line 1 So that the underground distribution line (1) is prevented from moving further.

As shown in FIGS. 2 and 3, the underwater line grip portion 520 is formed to have an outer diameter smaller than an inner diameter of the guide insertion hole 510 inside the guide insertion hole 510.

The underwater line grip portion 520 may be formed such that a plurality of cutouts 521 are symmetrically formed along the perimeter of the underground line inserting hole 501 at an end of the underground line grip portion 520 which first contacts the grab insertion guide portion 310.

As the grab guiding means 300 is gradually fastened to the guide inserting port 510, the grab insertion guide portion 310 and the underground wire grabber 310 gradually become closer to the end contacting with the underground conduit adapter 200, So that the gap between the plurality of cutouts 521 is gradually narrowed so that the underground line grab 520 is deformed to be broken.

As shown in FIGS. 4 and 5, the fixing protrusion 400 may be further provided with an auxiliary grabber 410 in a shape that is symmetrical with respect to a direction in which the underground wire grip 520 slips.

Thus, even when an additional external force is applied to the underground distribution line 1 by the connection device structure 100 and then pulled and pulled in the direction of drawing or pulling out after being drawn into the inside of the underground ship 3, The underground distribution line 1 can be fixedly supported without being deformed by the gripping of the underground line grab 520 and the auxiliary grab 410.

4 and 5, elastic fingers 420 may be further provided at the ends of the auxiliary grabber 410 and the ends of the underground wire grip 520. The elastic fingers 420 may be made of an elastic material such as rubber.

Thus, even when an external force is applied to the underground distribution line 1 in the direction of drawing or pulling out after the connection device structure 100 is pulled into the inside of the underground ship 3, the underground distribution line 1 Can be prevented from being damaged by external force by the elastic fingers 420 while being firmly supported by the elastic fingers 420.

With reference to FIG. 1 to FIG. 3, a description will be given of a process in which the underground distribution line 1 is drawn into the underground ship 3 by the above-described connection structure 100. FIG.

First, the underground distribution line 1 is inserted into the underground line inserting port 501 of the grappling means 500 and inserted into the underground line through hole 301 of the grab guide means 300, (201) of the underground ship (200) so as to enter the inside of the underground ship (3).

Subsequently, the length of the underground distribution line (1) remaining on the outside of the underground ship (3) is adjusted so that the underground distribution line (1) is properly pulled out so as not to be stretched or tangled outside the underground ship Or adjust the length of the underground distribution line (1) outside the underground ship (3).

The fixing protrusion 400 of the grab guiding means 300 is inserted into the protrusion receiving groove 210 of the underground channel adapter 200 so that the grab guiding means 300 is inserted into the underground channel adapter 200, Respectively.

Finally, the underground pipe adapter 200 and the grab guiding means 300 are enclosed and fastened to the grappling means 500.

The underground wire grip portion 520 contacts the grab insertion guide portion 310 of the grab guiding means 300 and is deformed in a collapsed manner so that the underground wire 1 is held in close contact with the grab- .

This allows the underground distribution line 1 to be connected to the underground ship 3 without any tension or tangling on the outside of the underground ship 3 regardless of the length of the underground distribution line 1 3), so that the space efficiency outside the underground ship 3 can be increased.

In the present invention, the configuration of the sealing means 600 for sealing the underground insertion port 501 as shown in FIGS. 6 to 8, including the above configuration, is further realized.

The sealing means 600 prevents the cover of the underground distribution line 1 from being hardened by moisture or the like flowing through the underground line inserting port 501 to prevent a short circuit and a short circuit, To prevent a reduction in the elastic force caused by the deformation of the elastic member.

In addition, the sealing part 600 prevents corrosion, electric safety accident, and the like, which may be generated when water or the like flowing through the underground inserting hole 501 is drawn into the inside of the underground ship 3.

The sealing means 600 includes a sealing ring 610 screwed around the underground distribution line 1 and the underground inserting hole 501.

For example, the underground insertion port 501 may be threaded and the sealing ring 610 may be screwed into the underground insertion port 501 while forming a thread on the outer circumferential surface.

The sealing ring 610 is branched from a state in which the sealing ring 610 is branched into a pair of sealing units 611 having a semicircular shape about the underground distribution line 1, Can be combined.

This is to allow the grappling means 500 to be coupled to the underground distribution line 1 in a state where the grappling means 500 is fastened by the underground pipe adapter 200 and the grab guiding means 300.

The pair of sealing units 611 are formed with coupling protrusions 612 at either end of the mutually contacting end portions and at the other end with coupling grooves 613 corresponding to the coupling protrusions 612, .

The pair of sealing units 611 are connected to the underground distribution line 1 in a state where the grappling means 500 is fastened to the underground pipe adapter 200 and the grab guide means 300, And can be screwed into the underground insertion port 501 according to the rotation.

8, when the elastic member 614 is received in the coupling groove 613 and is coupled to the underground insertion port 501, the pair of the sealing units 611 are engaged with the elastic member 614, It is preferable that the underground inserting hole 501 is smoothly brought into close contact by the force.

The elastic member 614 can smoothly separate the pair of sealing units 611 from each other by the elastic force when the pair of sealing units 611 is pulled out from the underground line inserting opening 501. [

The sealing means 600 may further include a milling ring 620 that hermetically seals the sealing ring 610 and the underground distribution line 1 as shown in FIG.

The base milling ring 620 is made of rubber, silicon, or the like, and may have an inlet groove 621 that is recessed inward along the outer circumferential surface. The inner circumferential surface of the sealing ring 610 is coupled to the inlet groove 621 to seal the underground distribution line 1 in an airtight manner.

A pair of flanges (not shown) that hermetically seal the pair of sealing units 611 may be formed while the base seal ring 620 is extended outward from both sides. At this time, the engaging projection 612 should be understood to penetrate the flange.

9, the grab guiding means 300 may have an outer diameter smaller than that of the underground pipe adapter 200.

The guide inserting hole 510 is branched into a first inserting hole 511 to be screwed into the underground conduit adapter 200 and a second inserting hole 512 to be screwed to the grab guiding means 300.

Needless to say, the diameter of the first insertion opening 511 is larger than the diameter of the second insertion opening 512.

This is because when the grappling means 500 is engaged, it is screwed with the first grab guiding means 300 and then improves the inconvenience of being screwed into the underground channel adapter 200 secondarily, (300) and the underground channel adapter (200).

That is, when the grappling means 500 is engaged with the grappling guide means 300 in contact with the underground channel adapter 200, the first insertion port 511 passes through the grab guide means 300 So that the second insertion port 512 can be moved from the state in which the second insertion port 512 is positioned to the grab guiding means 300 while being threadedly coupled with the rotation.

At this time, the first and second insertion ports 511 and 512 are preferably formed to have the same circumferential depth as shown in FIG.

The reason for this is that the start and end of the screw connection with the underground pipe adapter 200 and the grab guide means 300 can be performed in the same manner.

Thus, the connection device structure 1 can induce stable fastening with rapid detachment of the grappling means 500.

The present invention may further include a regulating means 630 for coupling the sealing ring 610 to the underground insertion port 501, as shown in FIGS.

The adjusting means 630 allows the pair of sealing units 611 to smoothly rotate to the underground line inserting opening 501 while being coupled to each other by surrounding the underground distribution line 1.

The adjusting means 630 includes a pair of connecting bars 631 connected to the pair of sealing units 611 and a pair of connecting bars 631 connected to the pair of connecting bars 631, And a pair of control levers 632 in the form of a pair.

The pair of sealing units 611 is formed with a coupling groove 611a to which the connecting bar 631 is coupled.

The pair of control levers 632 may be coupled to each other by a magnetic force while magnets (not shown) are provided at both ends.

The pair of control levers 632 are coupled to each other in the form of a ring so that an artificial operation can be smoothly performed.

Thus, the adjusting means 630 can smoothly rotate the pair of hermetically sealed units 611 to the underground insertion port 501.

In addition, the adjusting means 630 can be separated from the sealing ring 610 in a state where the sealing ring 610 is coupled to the underground insertion port 501, so that the sealing engagement of the sealing ring 610 .

1: underground distribution line 3: underground ship whole
100: connection device structure 200: underground channel adapter
210: projection receiving groove 300: grip guide means
310: Grab insertion guide part 400: Fixing projection part
410: auxiliary grip portion 420: elastic finger
500: grappling means 501: underground insertion hole
520: Underground grab portion 600: Sealing means
610: sealing ring 611: sealing unit
612: engaging projection 613: engaging groove
614: elastic member 615: compression member
620: Field milling 621: Inlet groove
630: adjusting means 631: connecting bar
632: Control lever

Claims (1)

The underground distribution line (1) is formed in a cylindrical shape in the underground distribution ship (3) into which the underground distribution line (1) is led. The underground distribution line (1) An underground pipe adapter 200 formed with a male thread over the entire outer circumferential surface exposed to the outside;
An underground line through hole (301) communicating with the underground line receiving port (201) is formed inside the underground line adapter (200) in a cylindrical shape having a male thread formed over the entire outer circumferential surface, The inner diameter of the underwater through hole 301 gradually decreases from the end portion of the channel adapter 200 toward the end contacting with the underground pipe adapter 200, Means (300); And
A guide inserting hole 510 having a female screw thread formed on the entire inner circumferential surface thereof so as to surround and fasten the ground guide adapter 200 and the grab guiding means 300 is formed in a cylindrical shape so as to communicate with the underground line through- The grab guiding means 300 is horizontally disposed along the longitudinal direction inside the guide inserting opening 510 before being fastened to the grab guiding means 300 and the grab guiding means 300 is inserted into the guide inserting opening 510, A grab fastening means (not shown) having an underground wire grip portion 520 for forming the underground wire inserting hole 501 to be deformed in a collapsed state by being in contact with the grab insertion guide portion 310, 500)
The grab guiding means (300)
And a plurality of fixing protrusions (400) protruding toward the underground pipe adapter (200) from an end contacting the underground pipe adapter (200) and symmetrically symmetrical along the circumference of the underground wire through hole (301)
In the underground channel adapter 200,
A plurality of protrusion receiving grooves 210 are formed on the inner circumferential surface of the underwater receiving port 201 so as to correspond to the fixing protrusions 400,
The underground wire grip portion 520 of the grappling means 500 includes:
A plurality of cutouts 521 are formed at the end of the guide inserting hole 510 which has an outer diameter smaller than the inner diameter of the guide inserting hole 510 and first contacts the grab insertion guide 310, Wherein the first and second grounding conductors are formed symmetrically with each other along the circumference of the underground distribution line,
And a sealing means (600) for sealing the underground port (501)
The sealing means (600)
And a sealing ring (610) coupled to the underground distribution line (1) and the periphery of the underground line inserting port (501)
The underground inserting hole (501)
A thread is formed around the periphery,
The sealing ring (610)
And is connected to a pair of sealing units 611 which are threaded around the underground line inserting hole 501 with a thread formed on the outer circumferential surface thereof and are semicircular about the underground distribution line 1, Is inserted into the underground inserting hole (501)
The pair of the sealing units 611,
And the elastic member 614 is accommodated in the coupling groove 613 while the coupling protrusion 612 is formed at one end of the inner side of the inner side The elastic member 614 smoothly adheres to the underground insertion port 501 by the elastic force of the elastic member 614 when engaged with the insertion port 501 and is smoothly separated from the underground insertion port 501 during withdrawal,
Further comprising adjusting means (630) for coupling the sealing ring (610) to the underground port (501)
The adjusting means (630)
A pair of connection bars 631 connected to the pair of sealing units 611, respectively; And
And a pair of control levers (632) connected to the pair of connection bars (631), both ends of the control levers (632) being in contact with each other or adjacent to each other.

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