KR101840638B1 - duct line type lubricant application device for cable - Google Patents

Abstract

The present invention relates to a technology of a device for applying a lubricant on the surface of a cable installed in a duct line by being installed in an entrance of the duct line inside a manhole. The technology automatically applies the lubricant on the surface of the cable entering the duct line formed inside the manhole at the entrance of the duct line. According to the present invention, a lubricant application device for a cable is installed in the entrance of the duct line inside the manhole, thereby effectively applying the lubricant on an external surface of the cable even if the cable is waved from side to side or tangled due to an external force when the duct line of the cable is installed.

Description

Technical Field [0001] The present invention relates to a pipe line type lubricant application device for cable,

The present invention relates to a technique for applying a lubricant to a surface of a cable installed in a channel inlet of a manhole and installed in the channel. More specifically, the present invention is a technique whereby a cable entering a channel formed in a manhole is automatically coated with lubricant on its surface at the inlet of the channel.

When cables (eg wires) are usually installed in the ground, they are routed through ducts pre-installed in the ground.

[Figure 1] is an example in which a pipe lubricant applying device for a cable according to the present invention is installed. [Figure 2] is an enlarged view of a part of [Figure 1] A first manhole 10 and a second manhole 20 are connected to each end of the channel 30 and connected to the ground so that the first manhole 10 and the second manhole 20 are connected to each other. I will. At this time, a plurality of strings connecting the respective manholes 10, 20 are provided inside the channel 30 in advance from the time when the channel 30 is formed.

Here, in the state where the cable is rolled around the first manhole 10, an operator enters the first manhole 10 and ties the leading end of the cable to the string in the duct 30. [

Then, the worker enters the second manhole 20 and connects the string in the line 30 to the laying device (not shown) located around the second manhole 20.

Then, when the laying device operates to pull the string in the duct 30, the cable entering the first manhole 10 is moved out of the second manhole 20 via the duct 30 along the strap to which it is connected.

However, the channel 30 may be formed in a straight line, but may be bent several times. As a result, there may occur a case where the coating of the cable passing through the conduit 30 is scratched or the cable is not smoothly moving along the conduit 30.

In order to overcome such a conventional problem, a technique has been disclosed in which a lubricant is applied to the outer surface of a cable in advance before entering the manhole, and then the cable to which the lubricant is applied enters the channel 30 inside the manhole.

However, the cable entering the first manhole 10 is moved by the pulling force of the laying device around the second manhole 20, so that the cable is subjected to an external force of swinging or twisting.

In order to effectively apply the lubricant to the outer surface of the cable in spite of such external force, the cable C enters into the cable C during the transportation of the cable C via the pipe 30 as shown in Figs. 1 and 2 An apparatus for automatically applying a lubricant to the outer surface of the cable C at the inlet of the pipe 30 by providing the pipe lubricant applying device 100 of the cable at the inlet of the pipe 30 .

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems, and it is an object of the present invention to effectively apply a lubricant to an outer surface of a cable entering a channel in a manhole while being swung or twisted by a pulling force of an external lay- The present invention provides a pipe-type lubricant applying device for a cable.

In order to accomplish the above object, the present invention provides a cable for a cable which is installed in a ground inside a manhole and is mounted on an inlet of a channel formed in the ground, passes through an inlet of the channel, The first embodiment of the present invention is characterized in that the first embodiment of the present invention has a hollow cylindrical shape and guides the cable through its inner side as it is inserted into the inlet of the duct, and has a spray hole in its inner wall, An inlet passage portion for spraying the lubricant onto the surface of the cable passing through the inner portion thereof as it is injected into the inner wall; And the outer diameter of the outer end of the rear end of the inlet passage corresponding to the direction of entry of the conduit is larger than the inner diameter of the conduit. Accordingly, when the inlet passage enters the inlet of the conduit, An entrance blocking flange for determining an entry limit of the entrance passage portion with respect to the entrance of the entrance passage; A hose connection portion provided on an outer wall of the entrance blocking flange for interfacing connection of a hose for supplying a lubricant from the outside; And at least one lubricant supply passage communicating the lubricant supplied from the hose to the injection hole as it communicates from the inside of the entrance blocking flange communicating with the hose connecting portion to the inside of the entrance passage portion.

In the lubricant supply path corresponding to the inside of the entry passage portion, the lubricant supply passage is provided at the leading end portion of the lubricant supply passage corresponding to the entry direction of the passage along the circumferential direction of the entry passage portion corresponding to the upper portion of the entry passage portion, And a lubricant collecting unit collecting a lubricant supplied from the outside through a lubricant supply path and providing the sprayed air to the injection hole.

Here, it is preferable that a plurality of injection holes are formed in the circumferential direction of the entrance passage portion on the inner wall of the entrance passage portion corresponding to the lubricant collecting portion.

In addition, a section of the inlet passage corresponding to the injection hole is secured from the front end of the inlet passage portion corresponding to the entry direction of the channel, and the inlet passage portion of the section secured from the injection hole to the inside- And a lubricant reservoir for allowing the lubricant injected from the injection hole to be high in its lower portion as the inner diameter is relatively more stepped.

In addition, the body in which the entrance passage portion and the entrance blocking flange are integrally connected can be configured to be cut along the entrance and exit direction of the pipe, and the cut portions can be mutually detached.

The outer tube may have a hollow cylindrical shape and may be installed at an inlet of the duct, and may have an inner wall thereof abutting the outer wall of the inlet passage to guide the inlet passage to enter the inlet of the duct.

According to a second aspect of the present invention, there is provided a lubricating oil supply apparatus for a vehicle, comprising: a hollow cylindrical shape having one end fixedly fitted in a lubricant reservoir and the other end being inserted into an inlet of a pipe, And an entrance adapter having an outer diameter smaller than an outer diameter of the entry passage portion.

At this time, as the inner diameter of a predetermined section of the entrance adapter corresponding to the direction from the leading end of the entrance adapter corresponding to the entrance direction of the duct to the entrance adapter corresponding to the entrance direction of the entrance adapter is stepped to be larger than the inner diameter of the adjacent portion, And a lubricant assistant for allowing the lubricant to remain on its lower portion.

The present invention is advantageous in that the lubricant applying device of the cable is installed at the inlet of the pipe line in the manhole so that the lubricant can be effectively applied to the outer surface of the cable even when the cable is shaken or twisted .

In addition, the present invention has the advantage that lubricant is applied to the outer surface of the cable in a case where the cable is shaken or twisted when the cable is installed on the pipe by providing the lubricant pad.

1 is an example in which a tubular lubricant applying device for a cable according to a first embodiment of the present invention is installed;
[Fig. 2] is an enlarged view showing a part of [Fig. 1]
FIG. 3 is an illustration showing the outer tube portion of the cable tubular lubricant applying device of the cable according to the first embodiment of the present invention,
4 is a side cross-sectional view of the cable duct type lubricant applying device of the cable according to the first embodiment of the present invention,
[Fig. 5] is a plan view from above of [Fig. 4]
[Fig. 6] is a front view looking from the side of the passage through which the cable enters with reference to [Fig. 4]
[Fig. 7] is a use state diagram showing a state in which a cable enters in [Fig. 4].
[Fig. 8] is a side cross-sectional view of a cable duct type lubricant applying device for a cable according to a second embodiment of the present invention, in which the outer tube portion is omitted. [Fig.

Hereinafter, the present invention will be described in detail with reference to the drawings.

FIG. 1 is an exemplary view showing a pipe lubricant applying device for a cable according to a first embodiment of the present invention, and FIG. 2 is an enlarged view of a portion of FIG.

Referring to FIGS. 1 and 2, an apparatus 100 for applying a tubular lubricant to a cable according to the present invention includes a tubular lubricant applying device 100 for applying a cable C to a pipe 30 in a manhole, And is mounted at the inlet portion of the pipe 30 so as to apply lubricant to the outer surface of the cable C at the inlet portion.

At this time, when the cable (C) enters the pipeline (30), an external laying device moves by the force of pulling the cable (C), so that the cable (C) receives an external force to swing or twist.

However, the lubricant can be effectively applied to the outer surface of the cable C at the inlet portion of the channel 30 as the cable channel lubricant applying device 100 is mounted on the inlet portion of the channel 30.

3 is an explanatory view showing a state in which the outer tube is separated in the apparatus for applying a tubular lubricant for a cable according to the first embodiment of the present invention, and FIG. 4 is a cross-sectional view of a cable according to the first embodiment of the present invention, Fig. 5 is a plan view of Fig. 4 viewed from above, and Fig. 6 is a front view of the lubricant applying device shown in Fig. 4 viewed from the side of the passage through which the cable enters .

3 through 6, the present invention is characterized in that a cable installed in a ground inside a manhole is installed at an inlet of a duct 30 formed in the ground, passes through an inlet of the duct 30, And the hose connection portion 140 and the lubricant supply path 150. The lubricant supply path 150 is provided with a discharge hole 110, an entrance passage portion 120, an entrance blocking flange 130, a hose connection portion 140, A lubricant collecting unit 160, and a lubricant collecting unit 170. The lubricant collecting unit 160 may be,

First, the entry passage 120 is hollow as shown in FIG. 4, and guides the cable C to pass through the entrance of the conduit 30 as it is inserted into the entrance.

5, the inlet passage 120 is provided with a plurality of spray holes 110 on its inner wall to spray lubricant supplied from the outside through its plurality of spray holes 110 to its inner wall The surface of the cable C passing through the inside of the cable C is coated.

Here, the injection holes 110 are formed in the inner wall of the entrance passage portion 120 corresponding to the lubricant collecting portion 160 as shown in FIG. 4 and FIG. 5 along a circumferential direction of the entrance passage portion 120 As shown in FIG.

The lubricant collecting part 160 and the injection hole 110 are disposed at the upper part of the entry passage part 120. As a result, the lubricant flows down from the upper portion of the cable (C) passing through the entry passage portion (120) and falls on the upper surface of the cable (C).

At this time, a part of the lubricant falling on the upper surface of the cable (C) flows down to the inner lower portion of the entry passage portion (120). The lubricant flowing down to the inner lower portion of the entry passage portion 120 naturally also applies the lower surface of the cable C moving along the passage H of the entry passage portion 120.

The entrance blocking flange 130 is formed to surround the outer diameter of the rear end portion of the entrance passage portion 120 corresponding to the direction opposite to the entry direction of the duct 30 and has an outer diameter larger than the inner diameter of the duct 30 When the entrance passage 120 enters the entrance of the passage 30, it is caught by the entrance of the passage 30 to determine the entry limit of the entrance passage 120 with respect to the entrance of the passage 30.

That is, when the entrance passage 120 enters the conduit 30, the entrance passage 120 is not completely inserted into the conduit 30 but is positioned at the entrance of the conduit 30, 130 are engaged with the inner wall of the manhole corresponding to the inlet portion of the duct 30 to adjust the entry of the inlet passage portion 120 into the duct 30.

A plurality of hose connection portions 140 are provided on the outer wall of the entrance blocking flange 130 to interface the connection of hoses supplying lubricant from the outside as shown in FIGS. 4 to 6.

Here, the hose detachably connected to the hose connecting part 140 is connected to an external lubricant pumping means, and the lubricant is pumped by the lubricant pumping means through the hose via the hose connecting part 140, (120) to guide the movement of the cable (C) to the inner wall of the entrance passage portion (120).

The lubricant supply path 150 is connected to one end of the hose connecting part 140 from the entrance blocking flange 130 to the inside of the entering path part 120 as shown in FIGS. 4 and 5, To communicate with the injection hole (110).

The lubricant collecting unit 160 collects lubricant from the inside of the entry passage 120 along the circumferential direction of the entry passage 120 corresponding to the upper portion of the entry passage 120. As shown in Figures 4 and 5, The lubricant supply path 150 is provided at the leading end of the lubricant supplying path 150 corresponding to the entering direction of the channel 30 among the lubricant supplying paths 150 corresponding to the inside of the entrance passage 120, .

As a result, the lubricant collecting unit 160 collects the lubricant supplied from the outside through the lubricant supply path 150 and provides the lubricant to the plurality of spray holes 110, which are small holes.

At this time, according to the pumping of the external lubricant pumping means, the lubricant is sequentially introduced into the hose (not shown), the hose connecting portion 140, the lubricant supplying passage 150, the lubricant collecting portion 160, And is sprayed from the upper inner wall of the passage portion 120.

The lubricant retainer 170 secures a section of the inlet passage portion 120 corresponding to the space between the injection holes from the leading end portion of the entry passage portion 120 corresponding to the entry direction of the pipe 30 as shown in Fig. The inner diameter of the entrance passage 120 of the section secured before the inner diameter of the entry passage 120 corresponding to the space between the injection hole 110 and the entrance blocking flange 130 is relatively larger as shown in FIG. It stalls.

As a result, the lubricant sprayed in the downward direction from the spray hole 110 is buried in the lower portion of the lubricant reservoir 170. At this time, the lubricant gathered at the lower portion of the lubricant retainer 170, which is the inner lower portion of the entry passage portion 120, is also naturally coated on the lower surface of the cable C passing through the entry passage portion 120.

6, the upper and lower portions of the body are cut along the entrance and exit direction of the conduit 30, and the cut portions of the body are cut along the entrance and exit flanges 130 Respectively.

As a result, after the completion of the installation of the cable C in the pipeline 30, the upper and lower portions of the body to which the entrance passage portion 120 and the entrance blocking flange 130 are integrally connected are separated from each other, .

On the other hand, the present invention may further comprise the outer tube 200. As shown in FIGS. 2 and 3, the outer tube 200 has a hollow cylindrical shape and is mounted at an inlet of the tube 30.

The outer tube 200 has an inlet passage 120 in which its inner wall is in contact with the outer wall of the inlet passage 120 and is installed in the tube 30 and then enters the inlet of the tube 30 Guide.

The body where the entrance passage 120 and the entrance blocking flange 130 are integrally connected is removed after the installation of the cable C is completed in the conduit 30 but the outer tube 200 is connected to the entrance of the conduit 30 It is preferable to maintain the state in which it is originally installed in the pipe 30 so that the partial outer shape can be maintained.

[Fig. 7] is a use state diagram showing a state in which a cable enters in [Fig. 4]. 7, when the cable C enters the passage H of the entry passage 120, the lubricant is supplied from the upper inner wall of the entry passage 120 through the plurality of injection holes 110 The lubricant that is sprayed falls on the upper surface of the cable C and applies the cable C and at the same time the lubricant flowing down from the cable C is continuously accumulated in the lubricant retainer 170.

As described above, the lubricant poured into the lubricant filler 170 naturally applies to the lower surface of the cable C moving through the passage H of the entry passage portion 120.

As a result, since the cable C installed in the pipeline 30 is coated with the lubricant in the process of entering the pipeline 30, the lubricant is more effectively applied than the conventional technique of applying the lubricant from the outside of the manhole.

[Fig. 8] is a side cross-sectional view of a cable duct type lubricant applying device for a cable according to a second embodiment of the present invention, in which the outer tube portion is omitted. [Fig.

The second embodiment of the present invention further comprises an entry adapter 300. [ Referring to FIGS. 4 and 8, the inlet adapter 300 has a hollow cylindrical shape. One end of the inlet adapter 300 is fitted and fixed to the lubricant reservoir 170 and the other end of the inlet adapter 300 is inserted into the inlet of the conduit 30 It is preferable that the outer diameter of the cable itself is smaller than the outer diameter of the entry passage portion 120,

The inner diameter of the piping 30 and the outer tube 200 may be slightly different from each other in the field. If the outer diameter of the entering passage 120 is made corresponding to the inner diameter of the piping 30 or the outer tube 200, There is a case that it does not exist. At this time, the above-mentioned problem can be solved by providing the entrance adapter 300 having an outer diameter sufficiently smaller than the inner diameter of the duct 30 or the outer tube 200.

That is, by forming the outer diameter of the entrance adapter 300 fitted in the inlet of the conduit 30 to be smaller than the outer diameter of the entry passage portion 120, the inner diameter of the conduit 30 or the outer tube 200 becomes smaller than the outer diameter of the entrance passage 120 The entrance adapter 300 having one end connected to the entry passage 120 is inserted into the passage 30 so that the entrance passage 120 can be indirectly connected to the passage 30. [

Meanwhile, the entry adapter 300 may include a lubricant assistant holder 310. The lubricant auxiliary gutters 310 are arranged such that the predetermined inner diameters of the entrance adapters 300 corresponding to the spaces between the leading end portions of the entrance adapters 300 corresponding to the entrance direction of the ducts 30 between the lubricant gutters 170, The lubricant injected from the injection hole 110 can be made to be high at the lower part of the inner circumferential surface of the inner circumferential surface.

10: 1st manhole
20: Second manhole
30: channel
C: Cable
100: a tubular lubricant applying device for cables according to the present invention
110: Spray hole
120: Entry passage section
130: Blocking flange
140: Hose connection
150: Lubricant supply path
160: Lubricant collecting section
170: Lubricant superstructure
200: Foreign Ministry
300: entry adapter
310: lubricant assistant pregnant woman

Claims (8)

There is provided an apparatus for applying a lubricant to a surface of a cable which enters a ground through an inlet of the duct and itself and a cable installed in a ground inside a manhole is mounted on an inlet of a duct formed in the ground,
And a guide hole 110 is formed in the inner wall of the pipe so that the lubricant supplied from the outside is injected into the inner wall of the guide pipe so that the lubricant is supplied to the inner wall of the pipe. An entrance path portion 120 for applying the surface of the cable passing through the inside thereof;
And the outer diameter of the inlet passage portion is larger than the inner diameter of the conduit. Accordingly, when the entrance passage portion enters the inlet of the conduit, An entrance blocking flange (130) hanging from the entrance of the duct to determine an entry limit of the entrance passage section with respect to the entrance of the duct;
A hose connection part (140) provided on an outer wall of the entry blocking flange for interfacing connection of a hose supplying lubricant from the outside;
At least one lubricant supply passage (150) communicating the lubricant supplied from the hose to the injection hole as it communicates from the inside of the entry blocking flange communicating with the hose connecting portion to the inside of the entry passage portion;
And a cable lubricant applying device for applying the cable.
The method according to claim 1,
And a lubricant supply passage for supplying lubricant to the lubricant supply passage, the lubricant supply passage being provided with a lubricant supply passage for supplying lubricant to the lubricant supply passage, A lubricant collecting part (160) collecting lubricant supplied from the outside through the lubricant supply passage and providing the injection hole to the injection hole, the internal space of the entry passage part being partially cut,
Further comprising: a tubular lubricant application device for the cable.
The method of claim 2,
Wherein a plurality of the injection holes (110) are formed in the inner wall of the entry passage corresponding to the lubricant collecting part in the circumferential direction of the entry passage.
The method of claim 3,
And a portion of the intake passage portion corresponding to the injection hole is secured from the leading end portion of the entry passage portion corresponding to the entry direction of the duct, and the interval between the injection hole and the entry- A lubricant adhering portion 170 for allowing the lubricant injected from the injection hole to be high in its lower portion as the inner diameter of the entrance passage portion of the section is relatively stepped;
Further comprising: a tubular lubricant application device for the cable.
The method of claim 4,
Wherein the body in which the entry passage portion and the entry blocking flange are integrally connected is cut along the direction of entry and exit of the pipe so that the cut portions are mutually separated and attached.
The method of claim 5,
The outer diameter of one end thereof is fixed to the lubricant reservoir and the other end is guided so as to allow the cable to pass therethrough as the other end is fitted in the inlet of the pipeline, An entrance adapter 300 formed to be smaller than an outer diameter of the entry passage portion;
Further comprising: a tubular lubricant application device for the cable.
The method of claim 6,
The entry adapter 300,
A lubricant is injected from the injection hole as the inner diameter of a predetermined section of the inlet adapter corresponding to the inlet end of the inlet adapter corresponding to the inlet direction of the conduit is stepped to be larger than the inner diameter of the adjacent section, A lubricant assistant hub 310 for allowing the lubricant assistant 310 to be fixed to the lower portion thereof;
Wherein the tubular lubricant application device comprises a tubular lubricant application device.
The method of claim 7,
An outer cylinder part 200 having a hollow cylindrical shape and mounted on an inlet of the channel, the outer cylinder part 200 having its inner wall abutting the outer wall of the entry passage part to guide the entry passage part entering the inlet of the channel;
Further comprising: a tubular lubricant application device for the cable.

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