JP4125632B2 - Underground box, and support structure and support device for wiring / piping material in underground box - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to an underground burial box used by burying underground wiring and piping materials such as underground cables and underground buried pipes, and wiring / piping materials in underground burial boxes. The present invention relates to a support structure and a support device.
[0002]
[Prior art]
  In the underground burial box described above, since the wiring / piping material is accommodated in the box body, in order to protect the wiring / piping material by preventing the wiring / piping material from sagging on the bottom wall portion, It is necessary to suspend and support the member. As a support device used for this purpose, a standing body having a plurality of mounting holes formed in a stepwise manner in the height direction is erected in the underground burial box, and the erected body is attached to the mounting hole. Some support members that extend from the body to the side support the wiring / piping material in the box body (see, for example, Patent Document 1).
[0003]
  Here, the height at which the wiring / pipe material drawn into the box body should be supported depends on the height position of the drawing hole drilled in the peripheral wall portion of the box body. Since the drilling position, size, and number vary depending on the thickness and number of wiring / piping materials, it is often impossible to specify at all.
[0004]
  However, in the above-described conventional support device, the support height of the wiring / piping material can only be adjusted stepwise corresponding to the formation position of the mounting hole of the standing body, and cannot be adjusted freely. The support state was unstable.
[0005]
  Further, in the conventional support device, the extending direction of the support member to the side of the standing body is also limited to the direction corresponding to the position of the mounting hole. For this reason, when the wiring / pipe material is bent in the box body, the support member cannot be extended in an optimum direction corresponding to the bending direction. It was unstable.
[0006]
[Problems to be solved by the invention]
  The problem of the present invention is that the support height of the wiring / piping material can be adjusted steplessly in the underground burial box with a very simple configuration, ensuring a stable support state, and to the side of the support member. It is also possible to freely adjust the extending direction of the cable so that the bent wiring in the underground box can be stably supported.
[0007]
[Means for Solving the Problems]
  The invention of claim 1 for solving the above-mentioned problem is a structure for supporting the wiring / piping material drawn into the box body of the underground box in the box body, and the bottom wall of the box body A mounting portion is formed on the upper portion toward the upper surface opening, and a lower end portion of a support bar is attached to the mounting portion and is erected vertically in the box body,The mounting portion is formed of a female screw portion, and the support rod body is formed of a male screw rod,The wiring / pipe material drawn into the box body is supported by a support tool extending laterally from the support rod body in a standing state, and the support tool has the wiring / pipe material at an appropriate height. To be able to support the support rodStepless height adjustmentIt is characterized by being attached by engagement.
[0008]
  According to the invention of claim 1, the bottom wall portion of the box body is formed toward the upper surface opening.Consists of female threadAt the mounting partConsisting of male threaded rodThe lower end of the support barScrewAnd a support bar is erected on the bottom wall of the box body, and the support bar supports the wiring / pipe material drawn into the box body,SteplesslyEngaged to be adjustable in height. For this reason, the position, size, and number of lead-in holes drilled in the side wall of the box body change depending on the thickness and number of wiring / piping materials, and the extra length of the wiring / piping material accommodated in the box body Even if the change occurs, the support is engaged with the support bar at the optimum height position corresponding to the extra length, and the support state of the wiring / pipe material in the box body is stabilized. . Also,Consisting of male threaded rodSince the support is engaged with the support bar, the extending direction (arrangement direction) of the support relative to the support bar can be adjusted freely. In combination with the above-described adjustment of the support height of the wiring / piping material, the wiring / piping material can be supported in a more stabilized state.
[0009]
  According to the first aspect of the present invention, the attachment portion formed on the bottom wall portion of the box body toward the upper surface opening is formed of the female screw portion, and the support bar body is formed of the male screw rod. The mounting of the support bar to the bottom wall of the box becomes easy, and the wiring and piping work of the wiring and piping material in the box body becomes easy.
[0010]
[0011]
  Claim2The invention is an underground box having a bottomed box body having an open upper surface for supporting wiring / piping material drawn into the box body via a support.Consisting of male threaded rodIn order to enable the support bar to stand up and down in the box body, a female screw part to which the support bar can be screwed is formed on its bottom wall part toward the upper surface opening. Yes. Claim2The invention of claim1Of the invention from the viewpoint of "underground burial box".1Is substantially identical to that of
[0012]
[0013]
  Claim3The invention of claim2In this invention, the box body is formed with a partition plate locking portion for locking the partition plate so as to partition and accommodate the wiring / pipe material drawn inside by the partition plate. At least one of the female thread portions is formed on the bottom wall portion of each of the divided accommodation spaces so that the support rods can stand upright in the plurality of accommodation spaces divided by the partition plate. It is characterized by that.
[0014]
  Claims3According to this invention, even if the inside of the box body is divided in either the vertical or horizontal direction by the partition plate, one or more female screw portions are formed on the bottom wall portion of each divided accommodation space. For this reason, even if the accommodation space in the box body is divided in either the vertical or horizontal direction by the partition plate, a support bar for supporting the wiring / piping material is erected in each divided accommodation space, and the inside of the box body is Regardless of whether the partition plate divides in either the vertical or horizontal direction, the wiring / piping material can be supported by the support rods in each of the compartment-accommodated accommodation spaces, and the wiring / piping material can be accommodated in the compartment.
[0015]
[0016]
  Claims4The invention is an apparatus for supporting the wiring / piping material drawn into the box body of the underground box in the box body,2It is screwed into the underground box described in the above and a female thread portion formed on the bottom wall portion of the box body constituting the underground box, and is erected in the box bodyConsisting of male threaded rodIn order to support the support bar and the wiring / pipe material drawn into the box body at an appropriate height, the support barSteplesslyAnd a support that can be freely adjusted in height.
[0017]
  Claim4The invention of claim1The invention of the present invention has been grasped from the viewpoint of "a device for supporting wiring and piping materials in underground burial boxes", and its function and effect are claimed in the claims.1Is substantially identical to that of
[0018]
DETAILED DESCRIPTION OF THE INVENTION
  Hereinafter, the present invention will be described in more detail with reference to embodiments. FIG. 1 shows a box body 10 of an underground box B according to the present invention in which an internal storage space 2 is partitioned into two by a partition plate P, and a lid D that closes an upper surface opening 1 of the box body 10. FIG. 2 is an exploded perspective view of the box body 10, and FIG. 2 shows a box body 10, a partition plate P partitioning the inside thereof, a male screw rod R, and a support S.₁3 is an exploded perspective view, and FIG. 3 shows a different cable K in each of the divided housing spaces 2a and 2b.₁, K₂FIG. 4 is a plan view showing a state in which X is wired.₁-X₁FIG. 5 is a sectional view taken along line X in FIG.₂-X₂FIG. 6 is a plan view of the bottom wall portion 12 of the box body 10, and FIG. 7 is an enlarged sectional view taken along line YY of FIG.
[0019]
  In FIG. 1, the underground burying box B includes a bottomed rectangular box body 10 and a lid D that closes the upper surface opening 1 (see FIG. 5) of the box body 10. The internal storage space 2 is divided into two by a single partition plate P and can be partitioned. The lid D that closes the upper surface opening of the box body 10 is a lid receiver D that is set on the upper end surface of the box body 10 in a mounted state.₁And the lid receiver D₁A circular lid body D for closing the circular opening 31 at the center of₂It consists of.
[0020]
  As shown in FIGS. 2 to 6, the box body 10 of the underground burying box B is formed of a thermoplastic synthetic resin, and the side wall portion 3 is formed to be slightly inclined to the outside. 3 is formed over the entire circumference in a state in which a bottom plate portion 4 forming a water containing space V, which will be described later, protrudes horizontally in a flange shape, on the outer end portion of the bottom plate portion 4, The outer wall plate portion 5 is formed so as to be vertically arranged over the entire circumference. As shown in FIG. 4, the upper end of the outer wall plate portion 5 is also a normal lid receiver D with respect to the upper end.₁The bottom plate is slightly higher than the upper end of the side wall 3 of the box body 10 so that another lid receiving body having a larger size can be placed, and the lower end of the bottom plate forms the water containing space V. It is located lower than the part 4. In other words, the bottom plate portion 4 is integrally formed inside the portion above the center in the height direction of the vertically arranged outer wall plate portion 5. Further, a flange-shaped lifting prevention plate portion 6 is formed on the lower end portion of the outer wall plate portion 5 so as to be directed outward and horizontally and integrally formed over the entire circumference. Between the outer wall 5, triangular reinforcing ribs 7 are integrally provided at the center of each side and the corner of the box body 10.
[0021]
  Further, each corner portion of the outer wall plate portion 5 having a rectangular frame shape as a whole is a positioning portion 5a that is partially higher than the upper end position of the other portion, and this positioning portion 5a is the box body 10. Lid receiver D on the upper end surface of the side wall 3₁It performs the positioning function when setting. Further, a normal size lid receiver D set on the upper end surface of the side wall 3 of the box body 10.₁When a lid receiving body having a larger size (larger than the rectangular frame-shaped outer wall plate portion 5) is set, each positioning portion 5a is positioned at the same position as the upper end surface of the outer wall plate portion 5. Resect.
[0022]
  Further, the water storage space V provided over the entire periphery of the upper end portion of the box body 10 includes an upper end portion of the side wall portion 3 of the box body 10 and a bottom plate portion 4 integrally formed on the outside thereof. The outer wall plate portion 5 formed integrally with the outer side of the box body 10 is a portion for temporarily storing water when the box body 10 is buried in the ground. A large number of drain holes 8 (see FIGS. 2 to 5) for draining the water temporarily stored in the water storage space V into the soil below this are spaced at predetermined intervals along the circumferential direction. Is provided.
[0023]
  The rectangular box body 10 has a square shape in plan view. The side wall part 3 is comprised by a pair of side wall board part 3a which mutually opposes, and a similar pair of side wall board part 3b, and the side length (length of a horizontal direction) of each side wall board part 3a, 3b is equal. A first partition plate locking portion 11 is formed along the vertical direction on the inner surface of each of the side wall plate portions 3a and 3b and in the center portion in the lateral direction (horizontal direction). The 1st partition plate latching | locking part 11 is formed with a pair of protrusion 11a, and the upper end part of the partition plate P is inserted and latched by the groove part 11b between each protrusion 11a. Further, since the entire shape of the side wall portion 3 is such that the side wall plate portions 3a and 3b are slightly inclined outward as described above, the first partition plate locking portion 11 is provided with each side wall plate. It is formed only from the substantially central part in the height direction of the parts 3a and 3b to the upper end, and the height of the protrusion 11a becomes higher toward the upper end.
[0024]
  As shown in FIGS. 2 and 4, the horizontal dimension (width) of the flat partition plate P corresponds to the length of one side of the box body 10, and the vertical dimension (height) is This corresponds to the depth of the box body 10. At both ends of the upper end portion of the partition plate P, the locking plate portion 20 protrudes in the lateral direction, and the partition plate P is inserted into the accommodation space 2 of the box body 10 in any one of the side wall portions 3a and 3b. Of the first partition plate locking portions 11 formed on the inner side of the side wall portion 3, and a pair of opposing sides on the inner side of the pair of side wall plate portions 3 a (3 b) orthogonal to the partition plate P. When the first partition plate latching portion 11 is engaged with each latch plate portion 20 at the upper end of the partition plate P, the storage space 2 inside the box body 10 is divided into two by the partition plate P. Is done. In addition, since the 1st partition plate latching | locking part 11 has predetermined length along an up-down direction, it becomes possible to attach the partition plate P from which height differs.
[0025]
  Moreover, as shown in FIGS. 6 and 7, the lower end portion of the partition plate P disposed inside the box body 10 is locked to the center portion of the bottom wall portion 12 of the box body 10 for use. The cross-shaped 2nd partition plate latching | locking part 13 which prevents that the partition plate P inclines in is formed. The second partition plate locking portion 13 is arranged by shifting the phase by 90 ° with each orthogonal portion of the four L-shaped protrusions 13a as the center, thereby allowing each of the first and second groove portions 13b, In this configuration, 13c are orthogonal to each other and parallel to the side wall plate portion 3a.
[0026]
  Further, as shown in FIGS. 6 and 7, the bottom wall portion 12 of the box body 10 is slightly shifted from one diagonal line L in the plan view and is centered on the center C of the bottom wall portion 12. On the other hand, a pair of nut bodies 14 for screwing a lower end portion of a male screw rod R, which will be described later, are embedded at symmetrical positions. The portion of the bottom wall portion 12 where the nut body 14 is embedded is a bulging portion 15 bulging inside, and the bulging portion 15 is formed with a male screw rod insertion hole 16 opened on the upper surface. The nut body 14 is embedded in the bulging portion 15 toward the upper surface opening 1 of the box body 10. Since the pair of nut bodies 14 is arranged as described above with respect to the center C of the bottom wall portion 12 of the box body 10, the lower end portion of the partition plate P is used as the second partition plate locking portion of the bottom wall portion 12. Even if the internal storage space 2 is divided into two parts in different modes by being locked in any of the 13 first and second groove portions 13b, 13c, the divided storage spaces 2a, One nut body 14 is always disposed on the bottom wall 12 of 2b (2c, 2d).
[0027]
  Therefore, if two nut bodies 14, which is the minimum number in this embodiment, are embedded in the bottom wall portion 12 of the box body 10, the divided housing spaces 2 a having two different division modes of the housing space 2 are provided. , 2b (2c, 2d), the nut body 14 is shared, and the male screw rod R is erected in each of the divided housing spaces 2a, 2b (2c, 2d) by the minimum number of nut bodies 14. Further, the pair of nut bodies 14 are arranged symmetrically with respect to the center C of the bottom wall portion 12 in a state slightly shifted with respect to one diagonal line L of the bottom wall portion 12 of the box body 10. When the partition plates P are arranged at different positions orthogonal to each other and the accommodation space 2 inside the box body 10 is divided into two, the male screw that is screwed to each nut body 14 and is erected on the bottom wall portion 12 The distance between the rod R and the partition plate P is different. That is, as shown in FIG. 3, when the lower end portion of the partition plate P is locked to the first groove portion 13 b of the second partition plate locking portion 13, it is more than when the lower end portion is locked to the second groove portion 13 c. The interval between the partition plate P and the male screw rod R is increased. The cable K is designed so that it is engaged with the male threaded rod R.₁, K₂There are various types of support tools for supporting the support S, which will be described later.₁This is because, in a structure having support portions on both sides, one support portion 17c can be disposed between the partition plate P and the male screw rod R.
[0028]
  Thus, since the nut body 14 is embedded in the bottom wall portion 12 of the box body 10 toward the upper surface opening 1 of the box body 10, the lower end portion of the male screw rod R is connected to the male screw rod insertion hole 16 (FIG. 5). 1 and 5), the male screw rod R is vertically arranged in the accommodation space 2 of the box body 10 on the nut body 14 below the nut body 14 as shown in FIGS. Screwed on.
[0029]
  Further, the male screw rod R arranged vertically in the housing space 2 of the box body 10 has a cable K arranged in the box body 10.₁, K₂A support for supporting various wiring / piping materials such as is attached in an engaged state. For example, the support S shown in FIG. 2 and FIG.₁Is constituted by a pair of split support bodies 17 that are integrally coupled with the male screw rod R interposed therebetween. The pair of split supports 17 have substantially the same shape, and a main body portion 17b in which a fitting groove 17a having a semicircular cross section corresponding to the diameter of the male threaded rod R is formed on the opposing inner surface in the vertical direction, and the main body portion It is comprised with the support part 17c extended on the both sides of the lower end part of 17b. Support S₁A pair of split support members 17 constituting the above are attached to the male screw rod R in an engaged state by being integrally coupled via two screws 18 with the male screw rod R sandwiched therebetween. For this reason, the engagement position of the height direction with respect to the external thread rod R standingly arranged in the bottom wall part 12 of the box main body 10 is the cable K to support.₁, K₂Can be adjusted steplessly corresponding to the position of the screw, and the engagement position in the circumferential direction with respect to the male threaded rod R can be arbitrarily adjusted corresponding to the position of the cable K to be supported.
[0030]
  Next, for example, a power supply cable K for high power₁And low-power telephone cable K₂Two types of cables K different from₁, K₂A first embodiment will be described in which the cable is drawn into the underground burial box B, and both are wired in a straight line and relay-connected. First, as shown in FIG. 2, the side wall plate portions 3 a that are opposed to each other among the side wall portions 3 constituting the box body 10 and are orthogonal to the first groove portion 13 b of the second partition plate locking portion 13. Two through holes H are distributed at the predetermined height positions to the left and right to perforate. Next, the partition plate P is inserted into the box body 10, and the locking plate portion 20 at the upper end of the partition plate P is engaged with the first partition plate member formed inside each opposing side wall plate portion 3 a. When the lower end portion of the partition plate P is locked to the first groove portion 13b of the second partition plate locking portion 13, as shown in FIGS. The accommodating space 2 inside the main body 10 is divided into two divided accommodating spaces 2 a and 2 b by the partition plate P.
[0031]
  Next, the couplings M are respectively attached to the through holes H drilled in the side wall plate portions 3a of the box body 10. As shown in FIG. 4, at the bottom of the burial hole excavated at the burial position of the underground burial box B, waste concrete is placed to form an installation portion 21, and the internal storage space 2 is a partition plate The box body 10 that is partitioned into two by P and has the coupling M attached to each of the opposing side wall plate portions 3 a is installed in the installation portion 21. In this state, two end portions of each cable protection pipe N piped on both sides of each side wall plate portion 3a of the box body 10 were attached to each side wall plate portion 3a of the box body 10 respectively. When connected to each coupling M, two different cables K₁, K₂Each cable protection tube N is inserted into the box body 10 for protection. In this state, the cable K pulled out from one cable protection tube N₁Is pulled into the divided housing space 2a of the box body 10 and inserted into the other cable protection tube N. Another cable K₂In the same manner, the cable protection tube N is pulled into the divided housing space 2a of the box body 10 and inserted into the other cable protection tube N. By this wiring work, two different types of cables K₁, K₂Is housed in a state of being partially exposed in each of the divided housing spaces 2a and 2b inside the box body 10 divided into two by the partition plate P, and as it is, is hung on the bottom wall portion 12 of the box body 10 and Become.
[0032]
  Next, when the male screw rod R is inserted into each of the divided housing spaces 2a and 2b of the box body 10 and the lower end thereof is screwed to each nut body 14 embedded in the bottom wall portion 12, each divided housing is received. Male threaded rods R are erected in the spaces 2a and 2b with a predetermined gap between them and the partition plate P, respectively. Here, different cables K are provided on the bottom wall portions 12 of the divided housing spaces 2a and 2b of the box body 10, respectively.₁, K₂As the hanging length (extra length) is estimated, the support S is adjusted to the optimum height of each male threaded rod R.₁Are engaged as described above. In the first embodiment, each cable K₁, K₂Is relay-connected in a straight line via the underground box B, so that the support tool S₁The support portion 17c of the cable K₁, K₂Are arranged substantially orthogonal to the wiring direction. And each cable K hanging from the bottom wall portion 12 of each divided housing space 2a, 2b of the box body 10₁, K₂Lift each support S₁As shown in FIGS. 1 and 4, each cable K is hooked on the support portion 17c.₁, K₂The support S₁Supporting tool S along the wiring direction in a state of moderately hanging from₁Each cable K is supported by₁, K₂The support state of is stabilized.
[0033]
  Thus, each cable K in the box body 10₁, K₂Support S along the optimal height position and optimal direction according to the extra length of the wire, wiring direction, etc.₁Can be engaged with the male threaded rod R, so that each cable K can be provided in the box body 10 in any wiring state.₁, K₂Can be supported in the most stable state. Each cable K in the box body 10₁, K₂After the end of the supporting operation, soil is backfilled in the hole around the box body 10, and the upper surface opening 1 of the box body 10 is closed with the lid D.
[0034]
  In the first embodiment described above, two different types of cables K are used.₁, K₂In the second embodiment shown in FIG. 9, each of the divided housing spaces 2 a, which are divided into two by the partition plate P. In one of the divided housing spaces 2a, the cable K is the same as in the first embodiment.₁Are connected in a straight line and are arranged in the divided housing space 2a.₁Is a single support S screwed to the male threaded rod R.₁The cable K is supported in the other divided housing space 2b.₂Is branched. That is, in the other divided housing space 2b, through holes H are formed in the opposite side wall plate portions 3a of the side wall portions 3 forming the divided housing spaces 2b. N is connected, and another side wall plate portion 3b (a side wall plate portion substantially parallel to the partition plate P) constituting the side wall portion 3 is provided with one through hole H to form another cable protection tube N. Are connected via a coupling M. Then, a plurality of cables K drawn from the cable protection pipe P piped substantially parallel to the partition plate P₂A part of the cable K is linearly wired and inserted into another cable protection pipe P piped substantially parallel to the partition plate P, and a plurality of cables K₂The remainder of the wire is bent and wired through another cable protection tube N that is piped substantially orthogonal to the partition plate P. Further, the male threaded rod R standing on the bottom wall portion 12 of the other divided housing space 2b has one support S.₁Is incliningly engaged with the partition plate P in plan view, and the support S₁A cable K that is linearly wired to one of the support portions 17c₂Is supported, and the other end of the support portion 17c has a cable K that is bent and wired.₂Is supported.
[0035]
  In addition, as in the third embodiment shown in FIG. 10, the two cable protection tubes N may be connected to the box body 10 of the underground burial box B in a manner in which the two cable protection pipes N are arranged one above the other. In the illustrated example, only one cable protection tube N is connected to one divided housing space 2a in the box body 10 divided into two by the partition plate P, but the other divided housing space 2b. The two cable protection tubes N are connected one above the other. In this case, the male threaded rod R erected on the bottom wall portion 12 of the other divided housing space 2b has a support S at a position slightly higher than the two cable protection tubes N.₁Is engaged and supported, and each cable K drawn from each cable protection tube N that moves up and down₂Is a separate support S that moves up and down.₁Supported by Therefore, each cable K drawn from each cable protection tube N that moves up and down₂Are supported stably without being entangled with each other.
[0036]
  Thus, cable K₁, K₂The supporting device A includes a box body 10 of the underground box B, a male screw rod R erected on the bottom wall portion 12 of the box main body 10, and a support S screwed to the male screw rod R.₁And a support S that is engaged with and supported by the male threaded rod R.₁Are the cables K wired in the divided housing spaces 2a and 2b of the box body 10.₁, K₂The height of the engagement support can be adjusted in a stepless manner corresponding to the extra length of the cable K, and the cable K in the divided housing spaces 2a and 2b.₁, K₂Is bent and wired, the support S with respect to the circumferential direction of the male threaded rod R corresponds to the bent wiring direction.₁Can be freely adjusted. Thus, the cable K according to the present invention₁, K₂According to the support device A of FIG.₁Is supported by the engagement structure, the cable K in the housing space 2 of the box body 10 is₁, K₂Corresponding to both the wiring height and wiring direction of the cable K₁, K₂Support S for supporting₁The cable K using the underground burial box B can be adjusted freely in the height and direction₁, K₂Can be used for various relay connections.
[0037]
  Moreover, in 4th Embodiment shown by FIG.11 and FIG.12, as for the partition plate P, the lower end part is latched by the 2nd groove part 13c of the 2nd partition plate latching | locking part 13, and it is in the direction orthogonal to the above. By being arranged, the internal storage space 2 is divided into two divided storage spaces 2c and 2d. Therefore, as shown in FIG. 11, the interval between the male threaded rod R and the partition plate P provided upright on the bottom wall portion 12 of each of the divided housing spaces 2c and 2d is the first to third embodiments described above. It is narrower than the form.
[0038]
  Support S used in the fourth embodiment₂As shown in FIG. 13, the entire shape is U-shaped, and a part of the cylinder is omitted. The support portion 23 is formed integrally with one end of the joint portion 22. The engaging portion 22 has a first male screw rod insertion opening 22a into which the male screw rod R can be inserted at the center in the longitudinal direction, and is formed on the entire circumference except the base plate portion 22b. On both sides, second male screw rod insertion openings 22c are formed along the longitudinal direction at positions that are 180 ° out of phase with each other. The opening width of the second male screw rod insertion opening 22c is slightly smaller than the diameter of the male screw rod R, and is expanded by elastic deformation when the male screw rod R is inserted.
[0039]
  And the support S against the male threaded rod R₂Is engaged and supported, as shown in FIG.₂And the male screw rod R is inserted relative to the first male screw rod insertion opening 22a of the engaging portion 22, and in this state, the support S₂Is rotated about 90 ° in the direction indicated by the arrow Q around the portion of the first male screw rod insertion opening 22a. As a result, as shown in FIG. 13B, the portions of the second male threaded rod insertion openings 22c of the engaging portions 22 formed by shifting the circumferential phases by 180 ° from each other are expanded by elastic deformation. Then, it is restored to the original shape, and the male screw rod R is inserted into each second male screw rod insertion opening 22c, and the entire engaging portion 22 is elastically contacted with the male screw rod R by the elastic restoring force. Support S for male threaded rod R₂Is held engaged.
[0040]
  For this reason, even when the space | interval of the partition plate P and the external thread rod R is small, the support tool S provided with the support part 23 only on one side of the engaging part 22.₂11, by arranging the support portion 23 on the opposite side of the partition plate P with respect to the male threaded rod R, as shown in FIG.₂Can be engaged and supported. In addition, the support S against the male threaded rod R₂Is engaged and supported as described above, so that the support S for the male threaded rod R is supported.₂Both the engagement support height and the arrangement position along the circumferential direction can be freely adjusted.
[0041]
  And the cable K wired straightly via the underground box B in one divided accommodation space 2c in which the accommodation space 2 inside the box body 10 is divided into two by the partition plate P₁A part of the support wire S is exposed and the surplus part is engaged and supported by the male screw rod R in the divided housing space 2c.₂It is supported by the support part 23. In the other divided housing space 2d, two cables K that are bent and wired at the underground burying box B portion.₂Is exposed wiring. Two cables K bent and wired in the divided housing space 2d₂Each of the two support fixtures S which are locked and supported by the male threaded rod R in the divided housing space 2d.₂It is supported by each support part 23. Here, as shown in FIGS. 11 and 12, the two cables K₂Supporting tools S that support the middle₂Since the support portion 23 is inclined with respect to the partition plate P, the two cables K are provided in the divided housing space 2d.₂Are bent and wired in a stable state.
[0042]
  Moreover, in each said embodiment, the support tool S₁, S₂The male threaded rod R is used as a support rod body for locking and supporting the height of the shaft, and the arrangement position along the circumferential direction can also be adjusted.₁, S₂There is an advantage that adjustment of the mounting height ofis there.
[0043]
[0044]
  Further, in order to allow the lower end portion of the support rod body to be screwed so that the support rod body can be erected on the bottom wall portion of the box body, the female thread portion formed on the bottom wall portion is also of the above embodiment. Thus, it is not limited to the structure in which the nut body is embedded, and a female screw may be directly formed on the bottom wall portion.
[0045]
  Further, each support tool S of the above-described embodiment also relates to a support tool that supports wiring and piping materials such as cables.₁, S₂Has the advantage that it can be freely detached even in the middle of the male threaded rod R which is a support rod,Consisting of male threaded rodAny structure may be used as long as the height can be adjusted with respect to the support rod and the arrangement position along the circumferential direction can be adjusted and supported.
[0046]
  In addition, the wiring and piping form of the wiring and piping material in the underground burial box (box body) are not limited to those in which the internal storage space is divided into a plurality through the partition plate, but in the non-divided storage space Of course, the present invention can also be applied to a form of wiring and piping.
[0047]
【The invention's effect】
  The present invention is formed on the bottom wall of the box body.Consists of female threadAt the mounting partConsisting of male threaded rodThe lower end of the support barScrew, A support bar on the bottom wallButStandingIn addition, the support rod is engaged and supported by a steplessly adjustable height of a support for supporting the wiring / piping material.With an extremely simple configuration, the support height of wiring and piping materials can be increased within the underground burial box.Stepless adjustmentThus, a stable support state can be ensured, and the extending direction of the support member to the side can be freely adjusted, so that the bent wiring in the underground box can be stably supported.
[Brief description of the drawings]
FIG. 1 shows a box body 10 of a buried underground box B according to the present invention in which an internal storage space 2 is partitioned into two by a partition plate P, and a lid D that closes an upper surface opening 1 of the box body 10; FIG.
FIG. 2 shows a box body 10, a partition plate P for partitioning the inside, a male screw rod R, and a support S.₁FIG.
FIG. 3 shows different cables K in the divided housing spaces 2a and 2b.₁, K₂It is a top view in the state where was wired.
FIG. 4 X in FIG.₁-X₁It is line sectional drawing.
FIG. 5 X in FIG.₂-X₂It is line sectional drawing.
6 is a plan view of the bottom wall portion 12 of the box body 10. FIG.
7 is an enlarged cross-sectional view taken along line YY in FIG.
[Fig. 8] (A) and (B) are support tools S, respectively.₁5 is a perspective view of before and after engaging and supporting the male screw rod R. FIG.
FIG. 9 shows a plurality of cables K wired in the divided housing space 2b.₂It is a top view of the box main body 10 which shows the state by which branch wiring is carried out.
FIG. 10 shows a plurality of cables K in the divided housing space 2b.₂It is front sectional drawing of the box main body 10 which shows the state wired up and down.
FIG. 11 shows a plurality of cables K in the divided housing space 2d.₂It is a top view of the box main body 10 which shows the state by which bending wiring is carried out up and down.
FIG. 12 is a perspective view with a part broken away.
13 (a) and (b) are the support tools S, respectively.₂5 is a perspective view of before and after engaging and supporting the male screw rod R. FIG.
[Explanation of symbols]
            A: Support device for wiring and piping materials
            B: Underground box
            C: Center of the bottom wall of the underground box
    K₁, K₂: Cable (wiring / piping materials)
            P: Partition plate
            L: Diagonal line at the bottom wall of the underground box
            R: Male threaded rod (support rod)
    S₁, S₂: Support tool
            1: Upper opening of the box body
            2: Housing space for the box body
    2a-2d: Divided accommodation space
          10: Box body
          11: 1st partition plate latching | locking part (partition plate latching | locking part)
          12: Bottom wall of the box body
          13: 2nd partition plate latching | locking part (partition plate latching | locking part)
          14: Nut body (mounting part, female thread part)

Claims (4)

A structure for supporting the wiring / pipe material drawn into the box body of the underground box inside the box body,
A mounting portion is formed on the bottom wall portion of the box body toward the upper surface opening, and a lower end portion of a support bar is attached to the mounting portion and is erected vertically in the box body.
The mounting portion is formed of a female screw portion, and the support rod body is formed of a male screw rod,
The wiring / pipe material drawn into the box body is supported by a support tool extending laterally from the support bar in a standing state,
The underground embedment characterized in that the support is attached to the support rod body in a steplessly adjustable manner so that the wiring / piping material can be supported at an appropriate height. Support structure for wiring and piping materials in the box. An underground box with a bottomed box body with an open upper surface,
The support bar is screwed so that a support bar made of a male threaded rod for supporting the wiring / piping material drawn into the box body via a support can be erected vertically in the box body. An underground buried box characterized in that a female thread portion that can be worn is formed on the bottom wall portion of the self-threading portion toward the upper surface opening. In the box body, a partition plate locking portion for locking the partition plate is formed in order to partition and accommodate the wiring / pipe material drawn inside by the partition plate,
At least one of the female thread portions is formed on the bottom wall portion of each of the divided accommodation spaces so that the support rods can stand upright in the plurality of accommodation spaces divided by the partition plate. The underground burial box according to claim 2 . A device for supporting the wiring / piping material drawn into the box body of the underground box inside the box body,
Underground burial box according to claim 2 ;
A support bar made of a male threaded rod that is screwed into a female thread formed on the bottom wall of the box body constituting the underground box, and is erected in the box body;
In order to support the wiring / pipe material drawn into the box body at an appropriate height, the support rod body is provided with a support tool that is engaged in a steplessly adjustable height. Support device for wiring and piping materials in underground buried boxes.

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