KR102341996B1 - Support for buried electrical, communication, and fire-safety conduits - Google Patents

Abstract

Disclosed is a support for buried electrical, communication, and fire-safety conduits, which can improve workability by enabling change of the dimensions according to situations. According to an embodiment of the present invention, provided is a support for buried conduits, for supporting the buried conduits so that ends of the buried conduits are positioned at a height. The support for buried conduits comprises: at least one horizontal support part extending in a longitudinal direction; at least one vertical support part coupled to the horizontal support part, and extending in a vertical direction to support the horizontal support part so that the horizontal support part is positioned at a height; and at least one fastening member provided to fix the buried conduits to the horizontal support part. The horizontal support part can include a first horizontal member and a second horizontal member coupled to be relatively movable in the longitudinal direction. The fastening member can be provided on at least one of the first horizontal member and the second horizontal member.

Description

Electrical, telecommunication, fire-fighting buried plumbing support

The present invention relates to a buried pipe support, and more particularly, to an electrical, communication, fire-fighting buried pipe support capable of improving workability by enabling dimensional change according to circumstances.

In building construction, before the process of pouring concrete on the floor on every floor, electricity, communication, and fire-fighting reclaimed piping construction are first performed. For example, in the case of a building such as an apartment or officetel, a plurality of lines of upright buried piping for each household are placed on the floor of the building to face the household distribution board before concrete is poured.

Such electrical, telecommunication, fire-fighting buried piping is partially buried under the floor concrete to be poured, but the end portion must be exposed above the floor concrete so that it can be embedded in a vertical structure such as a wall or column, and for this, the end of the buried piping is It is fixed at a predetermined height above the floor to be constructed. For example, the worker may bend the buried pipe to a predetermined radius of curvature at the part where it is buried under the floor so that the end faces upward, and tie it to a support installed with residual reinforcing bars, etc. using a binding line. If the buried pipe is not bound to the support in this way, the buried pipe lies on the floor, and the end of the pipe is also buried in the concrete when pouring concrete for the floor.

In order for an operator to perform the above binding operation, a process of tying the end of the pipe to the support is included after installing a pipe support separately from the remaining residue after cutting the structural reinforcing bars, which may entail various difficulties.

First of all, rebar is a material used for reinforcement work before pouring concrete on the floor, column, wall, etc. of a building during construction, and the remaining rebar after cutting to the required length is used for the construction of the pipe support. It can take a lot of time and effort to find and collect residual rebar to construct

In particular, since the length of the transferred rebar remainder is not constant, more time may be wasted in finding reinforcing rebar with sufficient length, time and effort may be wasted in cutting the larger length remnant rebar to the required length. , If an excessively large length of rebar is used without cutting it, the surplus part of the rebar from the support protrudes to the left and right, and there is a risk of injury to the body of the worker or damage to the worker's clothes or building materials.

In addition, the operator binds the ends of the electrical, communication, and fire-fighting buried piping to such a support with a binding wire such as a wire, but there is a hassle of binding the binding wire to the support and binding it again to the buried piping, and the buried piping is placed in a specific position It may also be difficult to firmly fix it to the

Accordingly, the present invention has been derived to solve the above-described problems, and one aspect of the present invention is to provide an electrical, communication, fire-fighting buried pipe support capable of improving workability by enabling dimensional change as necessary.

In addition, another aspect of the present invention is to provide an electrical, communication, fire-fighting buried pipe support that can easily and firmly bind the buried member to the support.

Other objects of the present invention will become clearer through the examples described below.

According to one aspect of the present invention, there is provided an electrical, communication, fire-fighting buried pipe support for supporting the buried pipe so that one end of the buried pipe is located at a predetermined height. The buried pipe support includes at least one horizontal support extending in the longitudinal direction; at least one vertical support part coupled to the horizontal support part and extending in a vertical direction to support the horizontal support part so that the horizontal support part is positioned at a predetermined height; and at least one binding member configured to fix the buried pipe to the horizontal support part, wherein the horizontal support part first horizontal member and the second horizontal member are coupled to each other so as to be relatively movable in the longitudinal direction. may include, and the binding member may be provided on at least one of the first horizontal member and the second horizontal member.

Electrical, communication, fire-fighting buried pipe support according to the present invention may have one or more of the following embodiments. For example, the vertical support portion may be configured to adjust the height of the horizontal support portion.

An accommodating space configured to accommodate at least a portion of the second horizontal member may be formed in the first horizontal member, and a slit extending in a longitudinal direction is formed in the first horizontal member so that the accommodating space is formed through the slit It may be open to the outside, and at least one of the binding members may be provided at a position corresponding to the slit among the second horizontal members.

The binding member may include a wire portion extending a predetermined length and formed of a material that resists tension. At least one of the binding members may include the wire portion passing through the slit when the second horizontal member is inserted into the accommodation space. It may be located outside the receiving space.

The binding member may further include a locking portion that does not allow the transfer in the opposite direction when the end of the wire portion is inserted and passed.

The binding member may further include a head portion formed to have a width greater than that of the wire portion at one end of the wire portion, and a through hole may be formed at a position corresponding to the slit among the second horizontal members, the through hole may include It may be formed in a size and shape that permits passage of the wire portion but does not allow passage of the head portion, and an allowance groove extending in the longitudinal direction at a position corresponding to the through hole on the opposite side of the slit in the first horizontal member is provided. may be formed, at least one of the binding members may be coupled to the through hole, and when at least a portion of the second horizontal member is inserted into the accommodation space, the head part may be located in the spare groove.

The electrical, communication, and fire-fighting buried pipe support may include a plurality of the binding members, a through hole may be formed in the spare groove, and at least one of the binding members may be coupled to the through hole formed in the spare groove. can

When the binding member further includes a head portion formed with a width greater than that of the wire portion at one end of the wire portion, a through hole is formed in the first horizontal member, the through hole permitting passage of the wire portion, but passing of the head portion It may be formed in an unacceptable size and shape, and an allowance groove extending in the longitudinal direction at a position corresponding to the through hole in the second horizontal member may be formed, and at least one of the binding members is coupled to the through hole. When at least a part of the second horizontal member is inserted into the receiving space, the head part may be located in the spare groove.

A notch having a width corresponding to the thickness of the wire portion may be formed in at least one of the first horizontal member and the second horizontal member.

A slit extending in the longitudinal direction may be formed in the second horizontal member as well. In this case, the slit of the first horizontal member and the slit of the second horizontal member may be aligned, and the binding member is the first horizontal member. and a head portion formed with a width greater than a width of a slit of the member and a slit of the second horizontal member, wherein at least one of the binding members includes a portion other than the head portion between the slit of the first horizontal member and the second It may be coupled to the slit of the second horizontal member to pass through the slit of the horizontal member.

In this case, the binding member may include a gripper positioned outside the slit of the first horizontal member; and a connecting part connecting the head part and the gripping part through the slit of the first horizontal member and the slit of the second horizontal member.

In some electrical, telecommunication, and firefighting buried piping supports, the horizontal support portion may include a plurality of the first horizontal members and may include the second horizontal members movably coupled to two adjacent first horizontal members. .

According to the problem solving means of the present invention as described above, various effects including the following items can be expected. However, the present invention is not established only when all of the following effects are exhibited.

An embodiment of the present invention can provide an electrical, communication, fire-fighting buried pipe support that can be collectively used in various environments because the length and height of the horizontal support to which the buried pipe is bound can be adjusted. This has the effect of shortening the construction period by improving the workability of the buried pipe construction work and the subsequent concrete pouring work.

In addition, an embodiment of the present invention can provide an electrical, communication, fire-fighting buried pipe support that can simplify the process of bundling the buried pipe and firmly fix the buried pipe at a predetermined position. This is accompanied by a significant improvement in workability of electrical, telecommunication, and fire-fighting buried plumbing construction, thereby reducing cost, effort and time.

1 is a perspective view illustrating an electrical, communication, fire-fighting buried pipe support according to a first embodiment of the present invention.
FIG. 2 is a cross-sectional view illustrating a horizontal support part and a binding member of the electrical, communication, fire-fighting buried pipe support shown in FIG. 1 .
3 is a perspective view illustrating an electrical, communication, fire-fighting buried pipe support according to a second embodiment of the present invention.
4 is a cross-sectional view showing the horizontal support part and the binding member of the electrical, communication, fire-fighting buried pipe support shown in FIG. 3 .
5 is a perspective view illustrating an electrical, communication, fire-fighting buried pipe support according to a third embodiment of the present invention.
6 is a cross-sectional view showing a horizontal support portion and a binding member of the electrical, communication, fire-fighting buried pipe support shown in FIG. 5 .
7 is a perspective view illustrating an electrical, communication, fire-fighting buried pipe support according to a fourth embodiment of the present invention.
8 is a cross-sectional view illustrating a horizontal support part and a binding member of the electrical, communication, fire-fighting buried pipe support shown in FIG. 7 .
9 is a perspective view illustrating an electrical, communication, fire-fighting buried pipe support according to a fifth embodiment of the present invention.

Since the present invention can apply various transformations and can have various embodiments, specific embodiments are illustrated in the drawings and will be described in detail in the detailed description. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention. In describing the present invention, if it is determined that a detailed description of a related known technology may obscure the gist of the present invention, the detailed description thereof will be omitted.

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. In the present application, terms such as “comprise” or “have” are intended to designate that a feature, number, step, operation, component, part, or combination thereof described in the specification exists, but one or more other features It should be understood that this does not preclude the existence or addition of numbers, steps, operations, components, parts, or combinations thereof.

Terms such as first, second, etc. may be used to describe various elements, but the elements should not be limited by the terms. The above terms are used only for the purpose of distinguishing one component from another.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings, and in the description with reference to the accompanying drawings, the same or corresponding components are given the same reference numbers regardless of reference numerals, and overlapping A description will be omitted.

1 is a perspective view exemplarily showing an electrical, communication, fire-fighting buried piping support 1000 according to a first embodiment of the present invention, and FIG. 2 is an electrical, communication, fire-fighting buried piping support 1000 shown in FIG. 1 . It is a cross-sectional view showing the horizontal support part 100 and the binding member 600 of the.

1 and 2, the electrical, communication, fire-fighting buried pipe support 1000 according to the first embodiment of the present invention is buried so that the ends of the electrical, communication, and fire-fighting buried pipe (not shown) are located at a predetermined height. It may be configured to support a pipe (not shown), and may largely include a horizontal support part 100 , a vertical support part 500 , and a binding member 600 .

The horizontal support part 100 is a member extending in a horizontal direction, and an end of the buried pipe (not shown) may be supported by being bound to the horizontal support part 100 . The vertical support part 500 may be coupled to the horizontal support part 100 and extend in a vertical direction to support the horizontal support part 100 so that the horizontal support part 100 is positioned at a predetermined height. The binding member 600 may be used to bind the end of the buried pipe (not shown) to the horizontal support part 100 . Hereinafter, each component will be described in more detail.

The horizontal support unit 100 may include at least one first horizontal member 101 and one or more second horizontal members 102 , respectively. The first horizontal member 101 and the second horizontal member 102 may be coupled to each other to be relatively movable along the longitudinal direction. As a result, the horizontal support unit 100 composed of the first horizontal member 101 and the second horizontal member 102 can be implemented to be adjustable in length. Although not shown, the horizontal support unit 100 may include means for limiting the maximum range in which the second horizontal member 102 can relatively move with respect to the first horizontal member 101 , and, if necessary, the first horizontal member 101 . A locking device may be included to fix the member 101 and the second horizontal member 102 so that no further relative movement is possible temporarily or permanently.

1 and 2, the accommodating space 121 is formed in the first horizontal member 101 and the second horizontal member 102 is formed such that all or part of it is inserted into the accommodating space 121 By this method, the first horizontal member 101 and the second horizontal member 102 may be implemented to be relatively movable with respect to each other. The accommodation space 121 formed in the first horizontal member 101 may be opened in a direction toward the second horizontal member 102 , and the second horizontal member 102 may be inserted into the opened portion as described above. Of course, this is only one example, and even if one of the first horizontal member 101 and the second horizontal member 102 is not inserted into the receiving space 121 of the other one, they are relatively movable with respect to each other. Various structures may be applied to the horizontal support unit 100 . For example, the first horizontal member 101 and the second horizontal member 102 may adopt various structures such as interlocking grooves and protrusions, and rails coupled to each other.

A slit 131 extending in the longitudinal direction is formed in the first horizontal member 101 so that the receiving space 121 may be opened to the outside through the slit 131 . The slit 131 may be formed to extend to an open portion of the receiving space 121 as shown.

The binding member 600 may be provided at a position corresponding to the slit 131 . For example, in the case of the binding member 600 coupled to the second horizontal member 102 , the second horizontal member 102 in the second horizontal member 102 is the receiving space 121 of the first horizontal member 101 . ) when inserted into the binding member 600 may be coupled or formed on the surface exposed through the slit 131 . Accordingly, even when the second horizontal member 102 is inserted into the receiving space 121 , the binding member 600 may be positioned outside the first horizontal member 101 through the slit 131 .

On the other hand, even in the case of the binding member 600 coupled to the first horizontal member 101, if the binding member 600 is coupled or formed on the opposite side of the slit 131 among the first horizontal member 101, the binding member 600 ) can be seen as provided at a position corresponding to the slit 131 .

In some embodiments of the present invention, the binding member 600 may include a head part 610 and a wire part 620 , in this case the binding member 600 is a through hole 141 formed in the horizontal support part 100 , 142). That is, the binding member 600 extends a predetermined length and includes a wire portion 620 formed of a material that resists tension, and a head portion 610 formed at one end of the wire portion 620 with a greater width than the wire portion 620 . may include The wire part 620 may be formed to have a length sufficient to bind a buried pipe (not shown). The through-holes 141 and 142 formed in the horizontal support unit 100 are formed in a size and shape through which the wire unit 620 passes, but the head unit 610 does not pass, and when the binding member 600 is mounted, the head unit ( 610 may be configured to be caught in the through-holes 141 and 142 . That is, the binding member 600 may be inserted into the through-holes 141 and 142 so that the wire unit 620 passes through the through-holes 141 and 142 . Since it does not pass through 142 , the binding member 600 may be coupled to the head 610 in a state in which the head portion 610 is caught in the through holes 141 and 142 .

1 and 2 , the through hole 142 formed in the second horizontal member 102 is formed at a position corresponding to the slit 131 of the first horizontal member 101 . Therefore, when the binding member 600 is coupled to the through hole 142 , the wire part 620 of the binding member 600 is outside the receiving space 121 of the first horizontal member 101 through the slit 131 . can be located

A mounting groove 172 may be formed around each through hole 142 of the second horizontal member 102 in a shape and size corresponding to the head portion 610, and when the binding member 600 is coupled, the head portion ( 610 is press-fitted into the mounting groove 172 by force fitting, so that the binding member 600 may be more firmly coupled. In some embodiments, the mounting groove 172 may be omitted.

In some embodiments not shown, at least one of the binding members 600 may be integrally formed on at least one of the first and second horizontal members 101 and 102 rather than being mounted on the horizontal support unit 100 . . In this case, the head portion 610 may be omitted from the binding member 600 , and only the wire portion 620 may be formed on the surfaces of the first and second horizontal members 101 and 102 , and the second horizontal member In the binding member 600 formed in the 102 , the wire part 620 may be located outside the receiving space 121 through the slit 131 .

A spare groove 111 may be formed in the first horizontal member 101 at a position corresponding to the through hole 142 of the second horizontal member 102 . The spare groove 111 is provided with an extra space so that the head 610 of the binding member 600 coupled to the second horizontal member 102 can pass through, and may extend along the longitudinal direction of the horizontal support unit 100 . have.

Referring to FIG. 2 , when the head portion 610 of the binding member 600 on the opposite side of the surface exposed through the slit 131 in the second horizontal member 102 protrudes beyond the surface of the second horizontal member 102 , , which may interfere with the movement of the second horizontal member 102 with respect to the first horizontal member 101 . In order to cope with this, even if there is a head portion 610 protruding beyond the surface of the horizontal member 102 by placing an allowance groove 111 in the first horizontal member 101, the second horizontal member 102 is the first horizontal member ( 101) can be freely moved. That is, when the second horizontal member 102 is inserted into the receiving space 121 of the first horizontal member 101, the head 610 of the binding member 600 coupled to the second horizontal member 102 is At least a portion may be located in the clearance groove 111 so as not to interfere with the relative movement of the second horizontal member 102 .

When the spare groove 111 is formed, the through hole 141 formed in the first horizontal member 101 may be formed in the spare groove 111 as shown in FIG. 2 . In this case, the head portion of the binding member 600 coupled to the through hole 141 of the first horizontal member 101 and the binding member 600 coupled to the through hole 142 of the second horizontal member 102 ( The allowance groove 111 may be formed to a sufficient depth so that the 610 does not collide with each other. Accordingly, even if the head 610 of the binding member 600 coupled to the first horizontal member 101 protrudes beyond the inner surface of the receiving space 121 , the second horizontal member 102 is the first horizontal member 101 . can be moved freely with respect to That is, when the second horizontal member 102 is inserted into the receiving space 121 of the first horizontal member 101 , the head 610 of the binding member 600 coupled to the first horizontal member 101 is At least a portion may be located in the clearance groove 111 so as not to interfere with the relative movement of the second horizontal member 102 .

On the other hand, in some embodiments, the binding member 600 coupled to the first horizontal member 101 is also coupled such that the wire part 620 faces the slit 131 so that the wire part 620 of all the binding members 600 is can be directed in the same direction. In this case, when the second horizontal member 102 is inserted into the receiving space 121 of the first horizontal member 101 , the binding member 600 coupled to the first horizontal member 101 has an allowance groove 111 . Alternatively, it may be arranged so as not to interfere with the movement of the second horizontal member 102 in the space of the accommodation space 121 .

In FIG. 2 , it is assumed that the first and second horizontal members 101 and 102 are formed to have a relatively small thickness, and a protrusion 181 is formed in the first horizontal member 101 to form an allowance groove 111 . has been When the first horizontal member 101 is bent to form the protrusion 181 to form the allowance groove 111, the structural strength of the first horizontal member 101 itself may be reduced, but the horizontal support part 100 itself is As for supporting the buried pipe (not shown), a large stress resistance is not required, and since the second horizontal member 102 is inserted into the first horizontal member 101, sufficient structural strength can be maintained.

On the other hand, when the first and second horizontal members 101 and 102 are formed to have a sufficient thickness, it will be possible to form the spare groove 111 without forming the protrusion 181 . In addition, the binding member 600 is formed integrally with the first and second horizontal members 101 and 102 without including the head portion 610, or sufficient for each of the first and second horizontal members 101 and 102 When the depth mounting groove 172 is formed so that the head 610 does not protrude beyond the facing surfaces of the first and second horizontal members 101 and 102, the spare groove 111 and the protrusion 181 are omitted. it might be

1 and 2 , the second horizontal member 102 has a shape of a band extending in the horizontal direction, and the first horizontal member 101 has a shape surrounding the second horizontal member 102 . This may help to simplify the manufacture of the horizontal support part 100 by allowing the second horizontal member 102 to have a very simple shape. On the other hand, the horizontal support unit 100 composed of the first and second horizontal members 101 and 102 is arranged so that the slit 131 faces the front. Of course, in another embodiment, the horizontal support part 100 may be arranged to be laid down so that the slit 131 faces the upper surface or the lower surface. However, since the load supported by the horizontal support part 100 will be applied in the vertical direction, it may be advantageous to arrange the horizontal support part 100 to stand up.

Referring to FIG. 1 , coupling parts 151 and 152 may be formed in the horizontal support part 100 as portions coupled to the vertical support part 500 . Although the horizontal support part 100 is arranged to stand up in consideration of the direction of the load it bears, the coupling parts 151 and 152 may be arranged to be laid down so as to be parallel to the ground in order to couple with the vertical support part 500 by a simple structure. have.

In the example shown in FIG. 1 , since the horizontal support part 100 includes one first horizontal member 101 and one second horizontal member 102 , the coupling part 151 is formed on the first horizontal member 101 . and a coupling portion 152 may be formed on the second horizontal member 102 . However, in some embodiments of the present invention not shown, the horizontal support unit 100 may include a plurality of first horizontal members 101 , and a second horizontal member 102 between adjacent first horizontal members 101 . may be coupled to be movable relative to each other. In this case, the positions at which the coupling portions 151 and 152 are formed may vary. In addition, in the example shown in Fig. 1, although the vertical support unit 500 is provided one at both ends of the horizontal support unit 100, the vertical support unit 500 is, for example, to be coupled to the outer surface of the first horizontal member 101 only one. Also, three or more may be coupled to various positions of the horizontal support unit 100 . As described above, the shape and number of the coupling parts 151 and 152 and the shape and number of the vertical support parts 500 are not limited and may be implemented in a variety of shapes.

The vertical support unit 500 may be implemented in various structures capable of adjusting the height of the horizontal support unit 100 , which may include a structure that allows the length of the vertical support unit 500 to be adjusted itself, and the vertical support unit 500 . A structure capable of adjusting the position of the horizontal support unit 100 coupled to the may be included.

For example, the vertical support unit 500 may include a plurality of vertical members 510 and 520 and a connector 530 disposed between the adjacent vertical members 510 and 520 . The vertical members 510 and 520 may be respectively inserted into both ends of the connector 530 by screw coupling, and the vertical members 510 and 520 depend on how far the connector 530 is inserted into the vertical support part 500 . The overall length can be adjusted.

In the example shown in FIG. 1, coupling holes 161 and 162 are formed in the coupling parts 151 and 152 of the horizontal support part 100, and the first vertical member 510 of the vertical support part 500 is connected to the coupling hole ( The height of the horizontal support part 100 may be fixed by the nut 540 positioned below the coupling parts 151 and 152 in a state inserted into the 161 and 162 . In this case, after adjusting the approximate length of the vertical support unit 500 using the connector 530 , it is possible to further adjust the height of the horizontal support unit 100 using the nut 540 .

The vertical support part 500 may include a support part 550 at its lower part. The support part 550 may be screwed to, for example, the lower end of the second vertical member 520 , and the lower surface may be formed to have a large area to support the vertical support part 500 more stably. It is possible to adjust the length of the vertical support portion 500 to some extent even by screwing the support portion 550 and the second vertical member 520 .

When using the electrical, communication, fire-fighting buried pipe support 1000 according to the first embodiment of the present invention shown in FIGS. 1 and 2 , the operator first has the second horizontal member so that the horizontal support part 100 has the required length. (102) It is possible to adjust the degree of insertion into the receiving space (121) of the first horizontal member (101). When the horizontal support unit 100 is provided with a locking device (not shown), the operator may operate the locking device to fix the second horizontal member 102 with respect to the first horizontal member 101 .

In addition, after the operator roughly adjusts the length of each of the two vertical support parts 500 using the connector 530 of the vertical support part 500 , the first vertical member 510 of each vertical support part 500 is horizontal. The horizontal support part 100 is coupled to be inserted into the coupling holes 161 and 162 of the coupling parts 151 and 152 of the support part 100, and the height of the horizontal support part 100 can be adjusted by rotating the nut 540. . Subsequently, the operator may bind the buried pipe (not shown) with the binding member 600 of the corresponding position in a state in which the end of the buried pipe (not shown) is supported at a specific position of the horizontal support unit 100 . At this time, the wire part 620 of the binding member 600 may be wound only around the buried pipe (not shown), or if the length is sufficient, it may be wound around the horizontal support part 100 as well.

According to the electrical, communication, fire-fighting buried pipe support 1000 according to the first embodiment of the present invention, the length and height of the horizontal support part 100 can be adjusted to suit the needs, so that it can be used in various environments. This can provide the effect of shortening the construction period by improving workability, as well as enabling the construction of electrical, telecommunication, fire-fighting buried pipe construction and subsequent concrete pouring work to be started quickly. Electrical, communication, fire-fighting buried pipe support 1000 according to the first embodiment can also simplify the manufacturing process because the second horizontal member 102 constituting a part of the horizontal support part 100 has a very simple shape. have.

When using the electrical, communication, firefighting buried pipe support 1000, the binding member 600 is already fixed at a predetermined position, so there is no need for an operator to first bind the separated binding wire to the horizontal support unit 100, A buried pipe (not shown) bound by the member 600 may also be more firmly fixed at a predetermined position. This can significantly improve the workability of electrical, telecommunication and fire-fighting buried piping construction, thereby reducing cost, effort and time.

3 is a perspective view exemplarily showing an electrical, communication, fire-fighting buried pipe support 2000 according to a second embodiment of the present invention, and FIG. 4 is an electrical, communication, and fire-fighting buried pipe support 2000 shown in FIG. 3 . It is a cross-sectional view showing the horizontal support portion 200 and the binding member 600 of the. The electrical, communication, fire-fighting buried pipe support 2000 according to the second embodiment of the present invention may largely include a horizontal support part 200 , a vertical support part 500 , and a binding member 600 , and a horizontal support part 200 . may include a first horizontal member 201 and a second horizontal member 202 .

1 and 2, a case in which the allowance groove 111 and the protrusion 181 for this are formed in the first horizontal member 101 is shown as an example, but the allowance groove 212 is formed in the second horizontal member 202 ) may be formed.

That is, referring to FIGS. 3 and 4 , a spare groove 212 and a protrusion 282 for forming the spare groove 212 may be formed in the second horizontal member 202 . In the illustrated example, the protrusion 282 of the second horizontal member 202 is formed to have a width corresponding to the width of the slit 231 of the first horizontal member 201 , so that the second horizontal member 202 is the first horizontal member In the portion inserted into the receiving space 221 of the 201 , the exposed surface of the protrusion 282 is on the same plane as the surface of the first horizontal member 201 .

In the second embodiment of the present invention, the binding member 600 is coupled at different heights in the first and second horizontal members 201 and 202 to increase the depth of the spare groove 212 in the spare groove 111 of the first embodiment. ) can be made smaller than For example, the through-hole 241 formed in the first horizontal member 201 may be formed at a higher position than the through-hole 242 formed in the second horizontal member 202 , and each of the through-holes 241 and 242 ), when the binding member 600 is coupled, the head portion 610 of the binding member 600 fixed to the through-holes 241 and 242 of the first and second horizontal members 201 and 202 is staggered. It may be sufficient that the allowance groove 212 is formed to a depth that can accommodate the thickness of one head portion 610 . As described above, mounting grooves 271 and 272 may be formed in each of the through holes 241 and 242, and as the depth of the mounting grooves 271 and 272 increases, the depth of the spare groove 212 can be further reduced. have.

Notches 291 and 292 may be formed in upper and/or lower portions of the first and second horizontal members 201 and 202 . The notches 291 and 292 are portions in which the upper or lower portions of the first and second horizontal members 201 and 202 are cut, and may be formed at a position corresponding to the position where the binding member 600 is formed or coupled, It may be formed with a width corresponding to the thickness of the wire portion 620 of the binding member 600 .

When the worker binds the buried pipe (not shown) using the binding member 600 after the installation of the electrical, communication, fire-fighting buried pipe support 2000, the worker wraps the wire part 620 around the buried pipe (not shown). The wire part ( 620) and the embedding member (not shown) bound thereto may be more firmly constrained by the notches 291 and 292 .

According to the electric, communication, fire-fighting buried pipe support 2000 according to the second embodiment of the present invention, the length and height of the horizontal support 200 can be adjusted to suit the needs, so that it can be used in various environments, and buried pipe construction work By improving the workability of the machine, it can save cost, effort and time.

In particular, in the electric, communication, fire-fighting buried pipe support 2000 according to the second embodiment of the present invention, the front and rear surfaces of the horizontal support unit 200 may have a generally flat shape. This not only provides advantages in terms of aesthetics and volume occupied by the appearance of the horizontal support unit 200, but also maintains a flat shape without bending the rear surface on which the slit 231 is not formed in the first horizontal member 201 structurally. It also provides the advantage of being able to maintain high strength. Meanwhile, since notches 291 and 292 are formed in the horizontal support part 200 , the binding member 600 and the buried pipe can be much more firmly bound to the horizontal support part 200 .

5 is a perspective view exemplarily showing an electrical, communication, and fire-fighting buried pipe support 3000 according to a third embodiment of the present invention, and FIG. 6 is an electrical, communication, and fire-fighting buried pipe support 3000 shown in FIG. 5 . It is a cross-sectional view showing the horizontal support part 300 and the binding member 600 of the. The electrical, communication, fire-fighting buried pipe support 3000 according to the third embodiment of the present invention may largely include a horizontal support part 300 , a vertical support part 500 and a binding member 600 , and a horizontal support part 300 . may include a first horizontal member 301 and a second horizontal member 302 .

5 and 6, in the electrical, communication, fire-fighting buried pipe support 3000 according to the third embodiment of the present invention, in addition to the slit 331 formed in the first horizontal member 301, the second horizontal A slit 332 may also be formed in the member 302 . In this case, the slit 331 of the first horizontal member 301 and the slit 332 of the second horizontal member 302 may be aligned and formed.

The second horizontal member 302 may have the shape of a hollow polygonal tube so that the second horizontal member 302 can maintain structural strength even including the slit 332 . Although the second horizontal member 302 is depicted as having a square cross section in the drawings, the shape of the cross section may vary, and it is also possible to have a substantially band shape as in the first and second embodiments.

In the electrical, communication, fire-fighting buried pipe support 3000 according to the third embodiment of the present invention, the binding member 600 may be coupled to the slits 331 and 332 of the first and second horizontal members 301 and 302 . have. In this case, the binding member 600 may include a head portion 610 formed with a width greater than the width of the slits 331 and 332 of the first and second horizontal members 301 and 302 .

For example, the first horizontal member 301 has the shape of a hollow tube, and an accommodation space 321 may be defined therein. It may extend from the 301 to the end facing the second horizontal member 302 . Similarly, the second horizontal member 302 also has the shape of a hollow tube, so that an accommodation space 322 can be defined therein, and a slit 332 is formed on the lower surface of the slit 332 is the second horizontal member. It may extend from the 302 to the end facing the first horizontal member 301 . The accommodation space 321 of the first horizontal member 301 may be formed to a size into which the second horizontal member 302 can be inserted.

During the process of inserting the second horizontal member 302 into the accommodating space 321 of the first horizontal member 301, one or more binding members 600 are disposed therebetween, and the head portion 610 of the binding member 600 is disposed therebetween. ) is located in the receiving space 322 of the second horizontal member 302 and the wire part 620 can be located outside through the slits 331 and 332 of the first and second horizontal members 301 and 302. have. When the second horizontal member 302 is inserted into the receiving space 321 of the first horizontal member 301 in a state in which the required number of binding members 600 are disposed in this way, the coupled binding members 600 are slit ( Although it moves in the longitudinal direction along 331 and 332 , it can be prevented from being separated from the horizontal support unit 300 .

Meanwhile, the binding member 600 may further include a locking part 630 in addition to the head part 610 and the wire part 620 . For example, irregularities may be formed in the wire portion 620 of the binding member 600 , and a hole having a size corresponding to the width and thickness of the wire portion 620 and a protrusion having one side inclined in the lock portion 630 . can be formed. The locking part 630 allows passage in the insertion direction of the wire part 620 but does not allow passage in the opposite direction, so that when the end of the wire part 620 is inserted into the locking part 630 , the wire part 620 ) can only be tightened and made loosening impossible. According to this embodiment, since the binding member 600 can be added or removed by separating the first and second horizontal members 301 and 302 , the operator accidentally inserts the wire part 620 into the locking part 630 . In one case, the binding member 600 may be cut and replaced with another binding member 600 .

In a preferred embodiment, the width of the locking part 630 is made larger than the width of the slits 331 and 332 so that the head part 610 is caught in the upper part of the slits 331 and 332 and the lock part 630 is caught in the lower part. can Accordingly, the binding member 600 can slide along the slits 331 and 332 in the longitudinal direction without departing from the slits 331 and 332 . It will be apparent to those skilled in the art that the binding member 600 of the form including the locking part 630 can be applied to the first and second embodiments described above.

When using the binding member 600 of the form in which the locking part 630 is not formed, a portion having a greater width than the wire part 620 is added to the upper side of the wire part 620, or the binding member 600 is The wire part 620 is mainly formed of a flexible material that resists tension, but by giving some rigidity, it is possible to prevent all of the wire part 620 from being inserted into the receiving space 322 of the second horizontal member 302 . In addition, when using the binding member 600 of the form in which the locking part 630 is not formed, the above-described notches 291 and 292 may be formed at predetermined positions of the first and second horizontal members 301 and 302 . have.

As in the present embodiment, when there is sufficient space in the first and second horizontal members 301 and 302, the horizontal support part 300 does not need to form separate coupling parts 151, 152, 251, 252. The first and second horizontal members 301 and 302 may directly form coupling holes 361 and 362 , and the vertical support unit 500 may be coupled through the coupling holes 361 and 362 .

Although the figure shows an example in which the slits 331 and 332 are formed on the lower surfaces of the first and second horizontal members 301 and 302, the slits 331 and 332 are the first and second horizontal members 301 and 302. Of course, it may be formed at other positions such as the upper surface, the front surface, the rear surface, and the like.

According to the electric, communication, fire-fighting buried pipe support 3000 according to the third embodiment of the present invention, the length and height of the horizontal support unit 300 can be adjusted to suit the needs, so that it can be used in various environments, and buried pipe construction work By improving the workability of the machine, it can save cost, effort and time.

In particular, in the electric, communication, fire-fighting buried piping support 3000 according to the third embodiment of the present invention, the number of binding members 600 coupled to the horizontal support 300 can be adjusted as needed, so that the buried piping support 3000 ) can be significantly improved. On the other hand, by forming the locking part 630 in the binding member 600, the workability and performance of the process of binding the buried pipe (not shown) can be further improved.

7 is a perspective view exemplarily showing an electrical, communication, fire-fighting buried piping support 4000 according to a fourth embodiment of the present invention, and FIG. 8 is an electrical, communication, fire-fighting buried piping support 4000 shown in FIG. 7 . It is a cross-sectional view showing the horizontal support portion 400 and the binding member 650 of the. The electrical, communication, fire-fighting buried pipe support 4000 according to the fourth embodiment of the present invention may largely include a horizontal support part 400 , a vertical support part 500 and a binding member 650 , and a horizontal support part 400 . may include a first horizontal member 401 and a second horizontal member 402 .

Similar to the third embodiment of the present invention, the first horizontal member 401 has the shape of a hollow tube, so that an accommodation space can be defined therein, and a slit 431 is formed on one side of the slit 431 may extend from the first horizontal member 401 to the end facing the second horizontal member 402 . The second horizontal member 402 also has the shape of a hollow tube so that an accommodation space 422 can be defined therein, and a slit 432 is formed on one side of the slit 432 in the second horizontal member 402 . It may extend to an end facing the first horizontal member 401 . The second horizontal member 402 may be inserted into the receiving space of the first horizontal member 401 so that the slits 431 and 432 of the first and second horizontal members 401 and 402 are aligned.

7 and 8 , in the electric, communication, fire-fighting buried pipe support 4000 according to the fourth embodiment of the present invention, the horizontal support unit 400 is an electric, communication, fire-fighting buried pipe support according to the third embodiment. Although it has a structure similar to that of the horizontal support part 300 of 3000, the binding member 650 may have a different structure from the binding member 600 of the third embodiment. 7 and 8 , the binding member 650 may include a head part 660 , a connection part 670 , a fixing plate 680 , and a gripping part 690 .

First, the binding member 650 of this embodiment may include a holding part 690 made of a relatively hard material that also resists compressive force instead of the wire part 620 formed of a flexible material to mainly resist tensile force. As shown in FIG. 7 , the gripper 690 is formed in a hollow cylindrical shape with one side cut out, and is made of a material that allows a slight elastic deformation to have a structure in which a buried pipe can be inserted therein.

That is, when using the binding member 600 including the wire part 620, the operator winds the wire part 620 around the electric, communication, fire-fighting buried pipe (not shown) and knots or locks it ( The wire part 620 will be bound by inserting it into the 630 , but when using the binding member 650 including the holding part 690 , the operator cuts the holding part 690 through the buried pipe (not shown). The buried pipe (not shown) can be fixed in a very simple way by press-fitting the part or inserting it from the lower side of the holding part 690 . Although not shown, the buried pipe (not shown) can be more firmly fixed by forming irregularities corresponding to the irregularities formed on the outer peripheral surface of the buried pipe (not shown) on the inner surface of the gripper 690 .

The head portion 660 of the binding member 650 may be positioned inside the receiving space 422 of the second horizontal member 402 to fix the binding member 650 . Here, the head portion 660 may be formed to have a size in contact with the inner surface of the receiving space 422 to more firmly fix the binding member 650 .

The connection part 670 may pass through the slits 431 and 432 of the first and second horizontal members 401 and 402 to connect the head part 660 and the grip part 690 . The drawing shows a case in which the connection part 670 is connected to the gripping part 690 via the fixing plate 680 , but for convenience of description, the fixing plate 680 will be regarded as a part of the gripping part 690 . Referring to FIG. 8 , the connection part 670 may be coupled to the through hole formed in the head part 660 by screw coupling. This makes it possible to adjust the distance between the head part 660 and the grip part 690 (more specifically, the fixing plate 680), and the binding member 650 is the first and second horizontal members 401, It allows to be placed anywhere on the slits 431 , 432 of 402 .

For example, the distance between the head 660 and the gripping part 690 in the binding member 650 disposed at the overlapping portion of the first horizontal member 401 and the second horizontal member 402 is the first horizontal At least the first horizontal member 401 compared to the distance between the head portion 660 and the gripping portion 690 in the binding member 650 disposed in the portion where the member 401 and the second horizontal member 402 do not overlap. ) or as large as the thickness of the inner wall of the second horizontal member 402 . Since the head part 660 serves to fix the binding member 650, if the distance between the head part 660 and the gripping part 690 is slightly larger, the binding member 650 may be loosely fixed. .

However, the first horizontal member 401 and the second horizontal member by allowing the connecting portion 670 to be coupled to the head portion 660 by screw coupling to adjust the distance between the head portion 660 and the gripping portion 690 . The binding member 650 may be firmly fixed even in a portion where the 402 is not overlapped. The head 660 may have a rectangular (or other polygonal) shape to prevent rotation within the accommodating space of the first and second horizontal members 401 and 402 .

The operator may rotate the fixing plate 680 to adjust the distance between the head part 660 and the gripping part 690, and the connection part 670 coupled to the fixing plate 680 rotates together but the head part 660. does not rotate, so the degree of insertion of the connection part 670 into the through hole of the head part 660 can be adjusted by screwing with each other. If necessary, the fixing plate 680 may be rotatably coupled to the gripping part 690 or may be fixedly coupled to each other. When the fixing plate 680 is rotatably coupled to the gripping part 690 , even if the operator rotates the fixing plate 680 , the gripping part 690 may not be rotated.

Although the figure shows an example in which the slits 431 and 432 are formed on the front surfaces of the first and second horizontal members 401 and 402, the slits 431 and 432 are the first and second horizontal members 401 and 402. Of course, it may be formed in other positions such as the upper surface, the lower surface, the rear surface.

According to the electrical, communication, fire-fighting buried pipe support 4000 according to the third embodiment of the present invention, the length and height of the horizontal support 400 can be adjusted to suit the needs, so that it can be used in various environments, and can be used in electrical, communication, It is possible to improve the workability of the firefighting buried pipe construction work, thereby reducing cost, effort and time.

In particular, in the electrical, communication, fire-fighting buried pipe support 4000 according to the third embodiment of the present invention, the number of binding members 650 coupled to the horizontal support 400 can be adjusted as needed, so that electricity, communication, and fire fighting The utilization of the buried pipe support 4000 can be significantly higher, and the buried pipe (not shown) can be bound by a very simple method of pressing the buried pipe (not shown) from the front or inserting it from the bottom, so workability and performance can be further improved.

9 is a perspective view illustrating an electrical, communication, fire-fighting buried pipe support 5000 according to a fifth embodiment of the present invention.

Referring to FIG. 9 , the electrical, communication, fire-fighting buried pipe support 5000 according to an embodiment of the present invention may include a plurality of vertical support parts 500 and a plurality of horizontal support parts 100 to 400 , and the When each horizontal support part (100 ~ 400) may have a different structure.

By bundling the buried pipe (not shown) to the plurality of horizontal support parts 100 to 400, the buried pipe (not shown) can be more firmly bound, which on the other hand has a binding strength in each horizontal support part 100 to 400 . can be somewhat mitigated.

In addition, since a part of the buried pipe (not shown) extends horizontally along the bottom surface and reaches an end and is bent upward along a curve, the binding position may be slightly different depending on the height. Since the binding positions of the horizontal support units 100 to 400 according to the above-described first to fourth embodiments are changed according to their installation direction and the direction of the slit, respectively, the horizontal support units 100 to 400 are selected as needed and their It can be used by adjusting the height.

Although the above has been described with reference to one embodiment of the present invention, those of ordinary skill in the art can variously change the present invention within the scope not departing from the spirit and scope of the present invention described in the claims below. It will be appreciated that modifications and variations are possible.

Claims (12)

As a buried pipe support for supporting the buried pipe so that one end of the buried pipe is located at a predetermined height,
at least one horizontal support portion extending in the longitudinal direction;
at least one vertical support part coupled to the horizontal support part and extending in a vertical direction to support the horizontal support part so that the horizontal support part is positioned at a predetermined height; and
At least one binding member configured to fix the buried pipe to the horizontal support part,
The horizontal support portion includes a first horizontal member and a second horizontal member coupled to be relatively movable along the longitudinal direction with respect to each other,
The binding member is provided on at least one of the first horizontal member and the second horizontal member,
An accommodating space configured to accommodate at least a portion of the second horizontal member is formed in the first horizontal member,
A slit extending in the longitudinal direction is formed in the first horizontal member so that the receiving space is opened to the outside through the slit,
At least one of the binding members is an electric, communication, fire-fighting buried pipe support, characterized in that it is provided at a position corresponding to the slit among the second horizontal member.
As a buried pipe support for supporting the buried pipe so that one end of the buried pipe is located at a predetermined height,
at least one horizontal support portion extending in the longitudinal direction;
at least one vertical support part coupled to the horizontal support part and extending in a vertical direction to support the horizontal support part so that the horizontal support part is located at a predetermined height; and
At least one binding member configured to fix the buried pipe to the horizontal support part,
The horizontal support portion includes a first horizontal member and a second horizontal member coupled to be relatively movable along the longitudinal direction with respect to each other,
The binding member is provided on at least one of the first horizontal member and the second horizontal member,
The horizontal support portion includes a plurality of the first horizontal member and electric, communication, fire-fighting buried pipe support, characterized in that it includes the second horizontal member movably coupled with respect to two adjacent first horizontal members, respectively. .
delete The method of claim 1,
The binding member includes a wire portion extending a predetermined length and formed of a material that resists tension,
At least one of the binding members, when the second horizontal member is inserted into the accommodating space, the wire portion passes through the slit to be located outside the accommodating space Electrical, communication, fire-fighting buried pipe support.
5. The method of claim 4,
The binding member is an electrical, communication, fire-fighting buried pipe support, characterized in that it further comprises a locking part that does not allow the discharge in the opposite direction when the end of the wire part is inserted and passed.
5. The method of claim 4,
The binding member further includes a head portion formed at one end of the wire portion with a width greater than that of the wire portion,
A through hole is formed at a position corresponding to the slit among the second horizontal members, and the through hole is formed in a size and shape that allows passage of the wire portion but does not allow passage of the head portion,
In the first horizontal member, on the opposite side of the slit, a spare groove extending in the longitudinal direction at a position corresponding to the through hole is formed,
At least one of the binding members is coupled to the through hole,
When at least a part of the second horizontal member is inserted into the receiving space, the head portion is located in the spare groove.
7. The method of claim 6,
The buried pipe support includes a plurality of the binding members,
A through hole is formed in the spare groove,
At least one of the binding members is an electrical, communication, fire-fighting buried pipe support, characterized in that coupled to the through hole formed in the spare groove.
5. The method of claim 4,
The binding member further includes a head portion formed at one end of the wire portion with a width greater than that of the wire portion,
A through hole is formed in the first horizontal member, and the through hole is formed in a size and shape that allows passage of the wire portion but does not allow passage of the head portion,
A spare groove extending in the longitudinal direction at a position corresponding to the through hole in the second horizontal member is formed;
At least one of the binding members is coupled to the through hole,
When at least a part of the second horizontal member is inserted into the receiving space, the head portion is located in the spare groove.
5. The method of claim 4,
Electrical, communication, fire-fighting buried piping support, characterized in that at least one of the first horizontal member and the second horizontal member has a notch having a width corresponding to the thickness of the wire part.
The method of claim 1,
A slit extending along the longitudinal direction is also formed on the second horizontal member,
The slit of the first horizontal member and the slit of the second horizontal member are aligned,
The binding member includes a head portion having a width greater than a width of a slit of the first horizontal member and a slit of the second horizontal member, and at least one of the binding members includes a portion other than the head portion of the first horizontal member Electrical, communication, fire-fighting buried pipe support, characterized in that coupled to the slit of the second horizontal member so as to pass through the slit of the second horizontal member.
11. The method of claim 10,
The binding member is
a gripper positioned outside the slit of the first horizontal member; and
Electricity, communication, fire-fighting buried pipe support further comprising a connection part for connecting the head part and the grip part through the slit of the first horizontal member and the slit of the second horizontal member.
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