KR20040012651A - groove block for electric wire and pipe laying - Google Patents

Abstract

PURPOSE: A groove block for a pipeline is provided to support a pipeline for wires and arrangements firmly and to improve the work efficiency on piling up blocks. CONSTITUTION: The groove block for a pipeline contains: a groove block(10) provided with a semi-elliptical groove(11) and minute long grooves(12) which are formed vertically along both inner sides of the groove(11); and a clip(20) formed in the shape of a wire and folded in the meandering shape. Wherein a pipeline(30) is not separated from the groove(11) by interposing a pipeline(30) into the groove(11), then fitting the clip(20) into the minute long groove(12) to improve the work efficiency on piling up blocks.

Description

Groove block for electric wire and facility piping {groove block for electric wire and pipe laying}

The present invention relates to a groove block, which will be described in more detail. In forming a groove block using concrete, a semi-elliptic groove is formed on the front surface of the center portion of the groove block, but is fine in both vertical directions of the inner surface of the groove. By forming a long groove and inserting a clip therebetween, the electric wire and the facility pipe inserted into the groove block are firmly supported, and the home block for the electric wire and facility piping that improves the efficiency of block masonry work.

In general, when building a residential facility, factory, or office, electric wires are introduced into the room, or various facility pipes are embedded in a wall so that the electric wires or facility pipes do not protrude in appearance. Blocks are formed by using groove blocks having semi-circular grooves formed on the side surfaces thereof.

In order to use the groove block as described above, before stacking the blocks, the wire protection pipe or the facility pipe should be erected vertically and fixed using a fixing means such as wire, and then the blocks should be stacked. It is difficult to accumulate blocks correctly, and there are problems such as the occurrence of cracks when finishing with plaster mortar due to the occurrence of play in electric wires and pipes in the home block.

In addition, the width and height of the groove block are different from each other, and the groove is located in the center of the groove block, so that separate adjustments are required for horizontal and vertical piping erections, and separate fixing for wires and facility piping inside the groove. Another problem that required binding work by cement nails, etc. was included.

Due to these problems, the efficiency of the block masonry work is reduced, and thus, the construction period and the construction cost are increased.

Accordingly, the present invention has been made in view of the above problems, the front of the center portion of the groove block to form a semi-elliptical groove, by forming a fine long groove at both ends of the inner surface of the groove to insert the clip into the wall, It is aimed to easily fix the electric wires and the facility piping embedded into the groove block.

In addition, the width and height of the groove block is formed to be the same, and the construction property is good when the horizontal and vertical piping masonry, and can be used for both the block and the brick work, in particular, to form a semi-oval groove on the front side of the block, Another type of block in which a rectangular through hole is formed at the other center is for the purpose of facilitating the pipe spacing operation because the groove is located at the eccentricity of the groove block.

In addition, since the wires and facility pipes embedded in the groove blocks are in close contact with the grooves of the grooves without any gaps, the efficiency of the block stacking work is improved, thereby shortening the air and lowering the construction cost. do.

1 is an overall perspective view of the present invention

2 is an exploded perspective view of the present invention

Figure 3 is a perspective view of the vertical stacking applied the present invention

Figure 4 is a perspective view of the horizontal stacking applied the present invention

5 is an overall perspective view of a second embodiment of the present invention;

6 is an exploded perspective view of a second embodiment of the present invention;

7 is a perspective view of vertical stacking according to the second embodiment of the present invention;

8 is a plan sectional view of the vertical stacking according to the second embodiment of the present invention;

9 is a perspective view of the horizontal stacking according to the second embodiment of the present invention

[Explanation of symbols on the main parts of the drawings]

10: groove block 11: groove

11a: circular portion 11b: opening

12: fine long groove 13: through hole

20: clip 21a, 21b: bend

30: wires and equipment piping 40: block

The present invention relates to a groove block for electric wires and facility piping, and in forming a groove block using concrete, a semi-elliptic groove is formed in the front surface of the center portion of the groove block, and fine long grooves are formed on both sides of the inner surface of the groove. By inserting the clip therebetween, the electric wire and the facility pipe inserted into the groove block are firmly supported, and the efficiency of block masonry work is improved.

The present invention consists of a groove block 10 and a clip 20, and a semi-elliptic groove 11 is formed in front of a central portion of the groove block 10 having a rectangular parallelepiped width and height and thinner thickness. The wire and the facility piping 30 is formed therein, the fine long grooves 12 are formed in both vertical sides of the groove 11 so that the clip 20 is fitted to the wire and the facility piping 30. ) Has an approximate configuration in which the groove 11 is in close contact with the circular portion 11a side.

Looking at the embodiment of the present invention through the drawings as follows.

Figure 1 shows the entire perspective view of the present invention, Figure 2 shows an exploded perspective view of the present invention, first, the groove block 10 is a block made of concrete is formed with the same width and height , The thickness is made in the form of a rectangular parallelepiped formed thinner than the width and height, a semi-elliptic groove 11 is formed in the front of the central portion.

The inside of the groove 11 is formed in a form in which the micro long groove 12 is vertically opposite to each other, so that the clip 20 to be described later can be vertically fitted to the micro long groove 12, the fine long groove 12 ) Is formed at a position spaced apart from the opening 11b side of the groove 11 by a predetermined interval so that the electric wire and the installation pipe 30 is inherently fixed to the circular portion 11a side of the groove 11. .

On the other hand, the clip 20 is formed of a metal or non-metal material with elasticity, is formed in the form of a wire of a certain thickness, and bent in the form of meandering (蛇行) to be produced, from one side of the bent portion (21a) The length up to 21b) is manufactured to match the length between the core portions of the fine long groove 12 processed in the groove 11.

On the other hand, the length of the clip 20 is appropriately adjusted to fit the weight and the like of the wires and equipment pipe 30, which is inherent in the circular portion (11a) of the groove 11 is fitted between the fine long groove 12. Has

The produced clip 20 is used selectively depending on the environment in which it is installed, if there is no fear of corrosion and high support capacity is required to produce the clip 20 using ferrous metal, there is a risk of corrosion and relatively When a high bearing capacity is required, a non-ferrous metal clip 20 is used, and when there is a high risk of corrosion and a relatively weak bearing force is required, it is configured to be selectively manufactured and used as a non-metallic clip 20 such as plastic.

Looking at the installation process of the present invention configured as described above with reference to Figure 3, which is the wire and the installation pipe 30 is formed in two vertical rows, first, constituting the wall by bundling the conventional block 40, but into the wall The groove block 10 is inserted where the wire and the facility pipe 30 to be inserted are brought into close contact with the circular portion 11a of the groove block 10, and then the clip is inserted into the fine long groove 12 of the groove block 10. (20) is inserted to support the wires and the facility pipes 30, and then the blocks 40 are horizontally assembled on both sides of the groove block 10 to complete the first row.

Then, another groove block 10 is fused to the upper end of the groove block 10, but is fused so as to communicate with the groove block 10 in the first row, and then the wires and equipment piping in the groove 11 as described above. After fixing the 30 through the clip 20, the block 40 is horizontally assembled on both sides of the groove block 10 to complete the second row, and the above method is repeated to repeat the third row and the second row. After arranging four rows ..., a layer of plaster mortar is formed on the outer surface of the groove 11 and the block 40 to complete the wall.

Meanwhile, FIG. 4 illustrates a vertical stacking of the present invention, which illustrates a form in which one line of wires and facility pipes 30 are horizontally formed. First, the conventional blocks 40 are sequentially stacked to connect the wires and facilities. After the pipe 30 is installed to be installed, the groove block 10 is disposed above the block 40, but the groove block 10 is laid down and laid so that the groove 11 faces the horizontal direction. After inserting the electric wire and the facility piping 30 into the groove 11, the clip 20 is inserted into the fine long groove 12 of the groove 11 to fix the electric wire and the facility piping 30, and then the groove 11 ) And a plaster mortar layer is formed on the outer surface of the block 40 to complete the wall.

On the other hand, Figure 5 and Figure 6 shows a whole perspective view and an exploded perspective view of the second embodiment of the present invention, as shown in the same shape as the first embodiment, bar and the same width and height are formed The thickness is made in the form of a rectangular parallelepiped formed thinner than the width and height, in particular, the front surface of one side is formed with a semi-elliptic groove 11, the other side is characterized in that the through hole 13 is formed in the center .

As in the first embodiment, the inner side of the groove 11 is formed in a form in which the micro long grooves 12 face each other vertically so that the clip 20 can be vertically fitted into the micro long grooves 12.

Looking at the installation process of another embodiment configured through the above through FIGS. 7 and 8, which shows a form in which two lines of the wire and the installation pipe 30 is formed vertically, first, by assemble the conventional block 40 to the wall Constituting the groove block 10 in the place where the wires and the installation pipe 30 is inserted into the interior of the wall to be in close contact with the circular portion 11a side of the groove block 10, then the groove block 10 After inserting the clip 20 into the fine long groove 12 to support the electric wire and the facility pipe 30, the first row is completed by horizontally aligning the block 40 to both sides of the groove block 10.

Then, another groove block 10 is stacked to the top of the groove block 10, and rotated 180 ° up and down so as to alternate with the groove blocks 10 in the first row so that the upper and lower groove blocks 10 may be stacked. The grooves 11 are in communication with each other, but the bleeding state of the block 10 is usually formed in the form of the block 40. As described above, the grooves 11 are connected to the wires and the facility piping 30 by the clip 20. After fixing through, to complete the second row by horizontally aligning the block 40 to both sides of the groove block 10, and repeating the method described above, the third row, the fourth row ... To form a mortar layer on the outer surface of the groove 11 and the block 40 to complete the wall.

On the other hand, Figure 9 shows that the wire and the facility piping 30 according to the second embodiment of the present invention to be formed in one row horizontally, first, the conventional block 40 by sequentially aligning the wire and the facility piping 30 The grooves 10 are laid to the position to be installed, and then the groove blocks 10 are laid on the upper side of the block 40, and the groove blocks 10 are laid down so that the grooves 11 face the horizontal direction. After inserting the electric wire and the facility pipe 30 into the inside, and then insert the clip 20 in the fine long groove 12 of the groove 11 to fix the wire and the facility pipe 30, then the groove 11 and the block ( The outer surface of 40) forms a layer of plaster mortar to complete the wall.

As described above, the present invention, while forming a semi-elliptical groove on the front surface of the central portion of the groove block, by forming a fine long groove at both ends of the inner surface of the groove and inserting the clip into the inside, the wires and facility piping embedded in the wall is There is an effect that is easily fixed in the groove block.

In addition, the width and height of the groove block is formed to be the same, and the construction property is good when the horizontal and vertical piping masonry, and can be used for both the block and the brick work, in particular, to form a semi-oval groove on the front side of the block, Another type of block having a rectangular through hole formed at the other center has an effect in that the pipe spacing is easily adjusted because the groove is located at the eccentricity of the groove block.

In addition, since the wires and facility pipes embedded in the groove blocks are in close contact with the grooves of the grooves without any gaps, the efficiency of the block stacking operation is improved, thereby reducing the air and lowering the construction cost. .

Claims (2)

In the groove block, The width and height are formed in the same, the thickness is made in the shape of a rectangular parallelepiped formed thinner than the width and height, the semi-elliptic groove 11 is formed in the front center, the inside of the groove 11 in both vertical directions A groove block 10 having a long groove 12 formed therein; It is formed in the form of a wire, it is composed of a clip (20) bent in the form of meandering (蛇行), After inserting the electric wire and the installation pipe 30 into the groove 11, by inserting the clip 20 into the fine long groove 12, it is confirmed that the electric wire and installation pipe 30 is separated to the outside of the groove (11). Block 40 is a groove block for electric wire and facility piping, characterized in that the efficiency of the masonry work is improved. The method of claim 1, A semi-elliptic groove 11 is formed at one side of the front surface of the groove block 10, and a through hole 13 is formed at the other center of the groove block 10.