KR100887098B1 - Cable duct - Google Patents

Abstract

A drop for a cable duct is provided to improve inconvenience of a work by connecting a duct block and a joiner by only a riveting. In a drop for a cable duct, a first movement preventing plate(58) is bent down at the end of a bottom of the drop(50). A coupling unit(64) is formed at both sides of the first movement preventing plate which is formed between the coupling units and a second movement preventing plate is formed between the coupling units. When the side wall of the duct block is inserted into an insertion space, the first movement preventing plate is closely adhered on the side wall of the duct block and the second movement preventing plate is adhered closely to a guide rail(18). So, the first and the second movement preventing plate prevent the movement of the drop assembled to the duct block.

Description

Drops used in cable ducts {Cable duct}

The present invention relates to a cable wiring duct, and more particularly, the branching means for branching to a place where the connection between the duct block and the joiner can be more easily and robustly, and also the need for a cable passing through the duct block. The present invention relates to a duct joiner for cable wiring, which makes it easy to perform a connection between a drop and a duct block.

As is well known, cable wiring ducts protect electrical cables by accepting large or small diameter electric cables or communication cables inside for power supply and communication functions in factories, ships, and offshore structures. It is a mechanism used to prevent the deterioration of beauty and to not inconvenience passengers.
Representative prior art related to the above-mentioned cable wiring duct is the Republic of Korea Patent Publication No. 10-2007-0065224 (name: latching trough connection system) (hereinafter referred to as prior art).
The prior art coupler releasably connects the first and second trough members and the first and second trough members for routing signal transmission fibers to each other. And a first rotation latch for releasably fixing the coupler and the first trough member, and a second rotation latch for releasably fixing the coupler and the second trough member.
The prior art of the above configuration is completed by connecting the first and second trough members to the coupler using the first and second rotary latches while the first and second trough members are fitted to the receptacles on both sides of the coupler. .
However, in the prior art, since the trough member and the coupler are fixed only when unnecessary components such as the first and second rotation latches are used, it causes a lot of inconvenience and inconvenience in assembly.
In addition, the signal transmission fiber (ie, cable) needs to be branched separately where necessary in the course of passing through the first and second trough members, but the prior art does not provide a means for branching such a cable. It will bring inconvenience.

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Accordingly, an object of the present invention for solving the above problems is to provide a cable wiring duct that can perform the connection work between the duct block and the joiner by riveting the state in which the duct block main body is inserted into both sides of the joiner. In providing.
Another technical problem to be achieved by the present invention is to provide a drop used in a cable wiring duct that can be easily branched to where the need for a cable passing through the duct block by detachably coupled to the duct block drop. have.
Another technical problem to be achieved by the present invention is to provide a drop used in a cable wiring duct that can easily perform the coupling and disconnection of the drop.

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The present invention for achieving the above object is a drop used in a cable wiring duct that is assembled to the side wall of the duct block and to branch the cable passing through the duct block, the lower surface wall end constituting the bottom of the drop The first flow preventing plate is vertically bent downwardly formed, and the second flow preventing plate is integrally formed with the first flow preventing plate and the insertion space therebetween under the lower wall of the drop. When the side wall of the duct block is fitted into the insertion space, it is in close contact with the inner surface, the outer surface of the duct block to prevent the flow of the drop, the sides of the duct block on both sides of the first flow preventing plate A coupler fitted to the wall is integrally formed, and the inside of the coupler is hung on the side rail which protrudes from the side wall of the duct block. Group is an obstacle protruding securing the drop in the duct characterized in that the block to be formed.

The cable wiring duct according to the present invention can realize the simplicity of work by allowing the connection work between the duct and the joiner only by riveting in a state where the duct block is inserted into both sides of the joiner without using a separate fastening member. Implement the effect of
In addition, the present invention achieves the synergistic effect of simplifying the fastening work between the duct block and the drop can be easily branched where the cable passing through the duct block.

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Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.
On the other hand, the duct components used in the cable wiring proposed in the present invention is largely a duct block 10 that provides a passage through which an electric cable or a communication cable can pass, and a joiner for connecting and fixing a plurality of the duct block 10 to each other ( 30) and divided into a drop 50 for branching an electric cable or a communication cable passing through the duct block 10 to where necessary. Hereinafter, detailed configurations of the above components will be described with reference to the accompanying drawings. It will be described.
1 is a three-dimensional view showing the configuration of the duct block 10 and the joiner 30 according to the present invention, Figure 2 is a combination of the duct block 10 and the joiner 30 shown in FIG. It is a figure which cut | disconnected the state.
As shown, the duct block 10 has a predetermined length and is formed in a state in which the side walls 12 are vertically erected on both sides while the upper end is opened in a “U” cross-sectional shape, and the bottom is a bottom wall. It is configured in a sealed state with (14) to produce a passage 16 through which an electric cable or a communication cable (hereinafter referred to as cable 80) can be formed.
3 is a cross-sectional view of the duct block 10 cut away. As shown, the side guide rail 18 is formed integrally extending along the longitudinal direction on the outer surface of the side wall 12 forming both sides of the duct block 10, and also constitutes the bottom of the duct block 10. The guide rail 20 is integrally formed on the outer surface of the lower surface wall 14 along the longitudinal direction.
The side guide rails 18 and the lower guide rails 20 are formed in the joiner 30 as will be described later, together with reinforcing the strengths of the side walls 12 and the bottom wall 14 constituting the duct block 10. The side guide rail insertion portion 38a and the lower side guide rail insertion portion 40a are respectively inserted to maintain a firm coupling state without flow between members in the process of connecting the duct block 10 and the joiner 30.
The joiner 30 is a means for connecting the plurality of duct blocks 10 manufactured in the above-described configuration to each other, the side wall constituting the outer wall on both sides and the lower end in the open state of the upper end in the "U" cross-sectional form The 32 and the lower wall 34 are formed, and the passage 36 is formed so that the cable 80 passing through the passage 16 of the duct block 10 can pass therethrough.
4 is a cross-sectional view of the joiner 30 in a cutaway view. As shown in the figure, the partition plate 35 protrudes in the form of a flange on the central outer circumferential surface of the side wall 32 and the lower surface wall 34 constituting the outer wall of the joiner 30, and the partition plate 35 is formed. Silver limits the insertion depth of each duct block 10 when the plurality of duct blocks 10 are assembled to the front and rear of the joiner 30, respectively.
Side protrusions 38, lower surface protrusions 40, and corner protrusions 42 each have a structure corresponding to each other so as to protrude from both sides of the partition plate 35, respectively.
The side protrusion 38 formed at one side of the partition plate 35 partitions the side inserting portion 38a inwardly, and the side inserting portion 38a of the side wall 38 of the duct block 10 is formed. The side guide rail 18 protruding from the 12 is fitted.
The lower surface protrusion 40 formed on one side of the partition plate 35 partitions the lower inserting portion 40a inwardly, and the lower inserting portion 40a forms the lower surface wall of the duct block 10 described above. The lower guide rail 20 protruding from the 14 is fitted.
The corner protrusion 42 formed at one side of the partition plate 35 partitions the corner inserting portion 42a inward in a state where it is located at a boundary point between the side wall 32 and the bottom wall 34 of the joiner 30. The corner inserting portion 42a is fitted with an edge surface 22, which is a boundary point between the side wall 12 and the lower surface wall 14 of the duct block 10.
Separate auxiliary insertion portions 44 and 46 are formed between the corner protrusions 42 and the side protrusions 38 and between the corner protrusions 42 and the bottom protrusions 40, respectively. , 46, the auxiliary side guide rail 24 and the auxiliary guide rail 26 protruding from the side wall 12 and the bottom wall 14 of the duct block 10 are fitted.
The side protrusions formed on the other side of the partition plate 30, the bottom protrusions and the corner protrusions are formed on one side of the partition plate 30, the bottom protrusions 40, and the corner protrusions 42. The side guide rails, the bottom guide rails, and the edges of the duct block formed in the other duct block assembled on the opposite side of the duct block 10 are formed by partitioning the side inserting portion, the bottom inserting portion and the corner inserting portion inward. Configure to fit.
Fastening holes 48 are formed in the side protrusions 38 and the lower surface protrusions 40 formed on both sides of the partition plate 30, and the rivets 49 penetrate through the fastening holes 48. By riveting the side wall 32 of the joiner 30 and the side wall 12 of the duct block 10, the joiner 30 and the duct block 10 configured to be connected to each other are fixed to each other.
On the other hand, the drop 50 is detachably coupled to the front of the duct block 10 and can branch some of the cable 80 in the cable 80 passing through the inner passage 16 of the duct block 10. This is the means used for the purpose.
5 is a three-dimensional view showing the coupling state of the drop and the duct block, Figure 6 is a view showing the bottom of the drop shown in FIG.
As shown in FIG. 5 and FIG. 6, the drop 50 forms side walls 52 on both sides, and the bottom surface thereof is hermetically sealed by a bottom wall 54, and the top surface of the drop 50 The front surface is manufactured in an open form, and the passage 56 is formed so that the cable 80 branched from the duct block 10 can pass therethrough.
One end of the lower flow wall 54 constituting the drop 50 is formed in a state where the first flow preventing plate 58 is vertically bent downward, and the first flow preventing plate 58 is formed of the drop 50. At the time of assembly, the side wall 12 of the duct block 10 is brought into close contact with the inner surface.
In addition, below the lower wall 54, the second flow preventing plate 62 vertically extends downwardly with the first flow preventing plate 58 and the insertion space 60 therebetween. The second flow preventing plate 62 is not formed to correspond to the first flow preventing plate 58, but as will be described later, it is formed between the coupling holes 64 formed on both sides of the first flow preventing plate 58. In the process of assembling the drop 50 to the duct block 10, the side wall 12 of the duct block 10 has an insertion space between the first flow preventing plate 58 and the second flow preventing plate 62. When fitted to the 60, close contact with the side guide rail 18 protruding from the outer surface of the side wall 12 of the duct block 10, preferably the outer surface of the side wall 12 of the duct block 10. Be sure to
The first flow preventing plate 58 in close contact with the inner surface of the side wall 12 of the duct block 10 and the side guide rail 18 protruding from the outer surface of the side wall 12 of the duct block 10. It is possible to prevent the shaking of the drop 50 assembled to the duct block 10 through the adhesion of the second flow preventing plate 62 which is in close contact with the.
Meanwhile, both sides of the first flow preventing plate 58 are fitted to side guide rails 18 protruding from the outer surface of the side wall 12 of the duct block 10, and the drop 50 is inserted into the duct block 10. The coupler 64 for fixing to each is integrally formed. A locking projection 66 protrudes from an inner surface of the coupler 64, and the locking projection 66 is caught by a side guide rail 18 formed on the side wall 12 of the duct block 10. The separation of the drop 50 fixed to the duct block 10 is prevented.
Hereinafter, the assembly process of the components constituting the cable duct according to the present invention will be described.
When the two duct blocks 10 are connected to each other using the joiner 30 of the present invention, first, the joiner 30 is positioned at the end of one duct block 10, and then the duct block 10 is When inserted into the joiner 30, the side guide rails 18 formed on the side walls 12 of the duct block 10 may be partitioned inside the side protrusions 38 of the joiner 30. The lower guide rail 20 formed on the lower surface wall 16 of the duct block 10 is partitioned into the lower surface inserting portion 40a formed inside the lower surface protrusion 40 of the joiner 30. In addition, the edge surface 22 of the duct block 10 is fitted into the corner inserting portion 42a formed inside the corner protrusion 42 of the joiner 30 to join the duct block 10. 30 is tightly coupled without flow.
Next, rivets 49 are inserted into the fastening holes 47 and 48 formed through the side protrusions 38 and the bottom protrusions 40 of the joiner 30, respectively, to thereby rivet the joiner 30 and the duct block 10. Connection is completed by the connection between one duct block 10 and the joiner 30 is completed, in this way to assemble the other duct block on the opposite side of the joiner 30 to connect and fix a plurality of duct blocks.
On the other hand, when the branching portion of the cable passing through the inner passage 16 of the duct block 10 in the connecting process to the need, the drop 50 which is a branch means on the side wall of the duct block 10 To be connected.
The connecting work of the duct block 10 and the drop 50 is first inserted between the first and second flow preventing plates 58 and 60 formed on the bottom wall of the drop 50 as shown in FIG. 7. The side wall 12 of the duct block 10 is inserted into 62 so that the drop 50 is first fixed to the duct block 10. At this time, the first and second flow preventing plates 58 and 60 of the drop 50 are assembled to the duct block 10 by being in close contact with the outer surface of the side wall 12 of the duct block 10. The shake of the drop 50 can be prevented.
At the same time as shown in Figure 8 when the coupling holes 64 formed on both sides of the first flow preventing plate 58 is inserted into the side wall 12 of the duct block 10, the inner surface of the coupling holes 64 The catching protrusion 66 formed at the upper portion is caught by the side guide rail 18 formed at the side wall 12 of the duct block 10, thereby closely holding the drop 50 assembled to the duct block 10. Fixed.

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1 is a view showing in three dimensions the configuration of the duct block and joiner constituting the duct for cable wiring according to the present invention.

FIG. 2 is a cross-sectional view illustrating an assembled cross section of the duct block and the joiner shown in FIG. 1; FIG.

3 is a cross-sectional view of the duct block shown in FIG.

4 is a cross-sectional view of the joiner shown in FIG. 1;

5 is a diagram three-dimensionally showing the configuration of the duct block and drop constituting the duct for cable wiring according to the present invention.

FIG. 6 shows the bottom of the drop shown in FIG. 5; FIG.

FIG. 7 is a view illustrating the assembled state between the first and second flow preventing plates and the duct block provided in the drop shown in FIG. 5;

FIG. 8 is a view illustrating an assembled state between a coupling tool and a duck block provided in the drop shown in FIG. 5; FIG.

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

10: Duct block 30: Joiner

50: drop

Claims (1)

It is detachably assembled to the side wall 12 of the duct block 10 and used in the cable duct for branching the cable passing through the duct block 10 to the required place through the passage 56 formed therein. In the drop, A first flow preventing plate 58 is vertically bent downward at an end of the bottom wall 54 constituting the bottom of the drop 50, and coupling holes are integrally formed at both sides of the first flow preventing plate; The first flow preventing plate 58 and the insertion space 60 are formed between the coupling holes 64 formed on both sides of the first flow preventing plate 58 under the lower wall of the drop 50. The second flow preventing plate 62 is integrally formed to be formed in between; The first flow preventing plate 58 is in close contact with the inner surface of the side wall 12 of the duct block 10 when the side wall 12 of the duct block 10 is fitted into the insertion space 60. The second flow preventing plate 62 is in close contact with the side guide rail 18 protruding from the outer surface of the side wall 12 of the duct block 10, and the drop 50 is assembled to the duct block 10. Prevent the flow of; Coupler 64 formed on both sides of the first flow preventing plate 58 is fitted to the side guide rail 18 protruding to the outer surface of the side wall 12 of the duct block 10 and the duct block ( Fix the drop 50 assembled in 10); The engaging projection 64 is configured to be hooked to the side guide rail 18 and the locking projection 66 to prevent the drop of the drop 50 is fixed to the duct block 10 is configured to further protrude. Drop used in the duct for cable wiring, characterized in that.

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