JP2004159800A - Wiring duct device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a wiring duct device which can house a large amount of wiring with a heavy weight, and at the same time, can firmly support members other than wiring as well, and of which the appearance is good. <P>SOLUTION: To the upper parts of a pair of right and left supporting legs 9 and 9, both ends of a pair of front and rear side beams 12 and 12 which face the lateral direction are fixed. Then, a wiring receiver 13 having a U-shape facing upward when seen from the side surface is laid between the front and rear side beams 12 and 12. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a wiring duct device capable of accommodating a large amount of wiring.
[0002]
[Prior art]
As this kind of conventional one, a substantially horizontal L-shaped receiving portion (wall) is formed on both sides of a substantially horizontal square tubular core tube so that the cross-sectional shape as a whole is substantially circular, There is one in which various wirings are accommodated in each receiving portion (for example, see Patent Document 1).
[0003]
[Patent Document 1]
JP-A-10-262744 (FIGS. 6 and 7)
[0004]
[Problems to be solved by the invention]
However, in the conventional example described above, since each receiving portion protrudes sideways from the core tube, if a heavy wire or the like is accommodated here, the tip of each receiving portion is lowered. There is a possibility that the elastic portion is elastically bent, the opening portion is widened, and the opening portion becomes unsightly, or the base portion of each receiving portion is broken.
[0005]
SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems of the related art, and has been developed in a manner that can accommodate a large amount of heavy wiring and can strongly support members other than wiring. It is intended to provide a good wiring duct device.
[0006]
[Means for Solving the Problems]
According to the present invention, the above-mentioned problem is solved as follows.
(1) Both ends of a pair of front and rear side beams facing left and right are fixed to the upper part of a pair of left and right support legs, and a wire receiver having an upward U-shape in side view is installed between the front and rear side beams. .
[0007]
(2) In the above item (1), a beam bar extending in the left-right direction fixed to the lower part of the opposing surface of the support leg whose both ends oppose each other is provided below the wire receiver, and is provided at an appropriate position in the longitudinal direction of the beam bar. , A lower wiring duct is provided.
[0008]
(3) In the above item (2), a downward U-shaped fitting portion is provided at the center of the lower wiring duct, and this fitting portion is straddled over the beam rod. An upward L-shaped receiving portion extending to both sides is continuously provided.
[0009]
(4) In any one of the above items (1) to (3), a side cover is detachably provided below the front and rear side beams, and a space surrounded by both side covers and a wire receiver is referred to as a wiring accommodation space. I do.
[0010]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.
FIGS. 1 to 10 show a workstation apparatus in which a plurality of workstation components are mounted on a first embodiment of the wiring duct apparatus of the present invention.
[0011]
As shown in FIG. 1, in this example, the workstation device is composed of four sets of horizontally long wiring duct devices (A1) to (A4) provided in series on the floor, each of which constitutes a workstation component. Four types of tables (including desks) (1) (2) (3) (4), two types of partition panels (5) (6), and two types of shelves (7) (8) (this shelf (7 (8) only) is configured by mounting the wiring duct device (A) separately.
[0012]
FIG. 2 shows one unit of the wiring duct device (A), and an arbitrary unit can be connected in series in the horizontal direction so that a desired length can be obtained.
[0013]
As shown in FIG. 2, one unit of the wiring duct device (A) includes a pair of left and right support legs (9), (9), and a left-right long base rod ( 10).
[0014]
As shown in FIG. 2 and FIG. 3, the base rod (10) is a pair of left and right sides that are substantially Y-shaped when viewed from the side and are fixed to upper facing surfaces of a pair of left and right support legs (9). Support rods (11), (11), a pair of front and rear side beams (12), (12), both ends of which are fixed to the front and rear portions of the upper end, and an upside-down U-shape when viewed from the side. A piece (13a) (13a) is fixed to the inner surface of the front and rear side beams (12) (12) and has a substantially horizontal wiring receiver (13) facing left and right, and a lower part of the center of the wiring receiver (13). A beam rod (14) disposed parallel to the beam and having left and right ends fixed to the lower center of both support rods (11) (11); And one or more upright plates (15) provided on the upper surface of the upper surface and supporting the wiring receiver (13) at the upper end. There.
[0015]
A large number of fitting holes (16) forming leg rod support portions are formed in the central portion and both front and rear side portions of the wiring receiver (13) in three rows in the longitudinal direction, and are arranged on both sides of the central portion. Are arranged side by side with a close interval.
As shown in FIG. 5, only one of the fitting holes (16) is shown in an enlarged form, and a rectangular recess (16a) having a required width is provided on the left and right edges of the circular hole.
[0016]
As shown in FIG. 6 and FIG. 7, the beam rod (14) is a rectangular cylindrical member having a wide I shape in side view, and has a front-rear width below the opening (17 a) below the opening (17 a) in the center of the upper surface. Inverted T-shaped engaging grooves (17) having large diameters, and engaging concave grooves (18) having inclined surfaces (18a) whose bottom surfaces are inclined upward outward are provided on both front and rear side surfaces. On both front and rear sides of the lower surface, inverted trapezoidal downward ridges (19) and (19) are provided so as to be continuous in the longitudinal direction. The facing surfaces of the downwardly protruding ridges (19) and (19) facing forward and backward are inclined surfaces (19a) inclined downward and outward.
[0017]
As shown in FIGS. 1 and 2, each of the wiring duct devices (A) has a side cover whose upper end is locked to the front and rear side beams (12) and (12) and covers the front and rear surfaces of each base rod (10). (20) and (20), and an end cover (21) detachably attached to the outer surface of the outermost support leg (9) and covering the left and right end surfaces of the wiring duct device (A). The supporting rods (11) of the base rods (10) adjacent to each other are fixed to the left and right side surfaces of the intermediate supporting leg (9) in the wiring duct device (A), and the end cover (21) is provided. Not been.
[0018]
The space above the wiring receiver (13) in the wiring duct device (A) and the space surrounded by the front and rear side covers (20) and (20) below the wiring receiver (13) are a power supply line for various electric devices and a signal line. And a wiring accommodation space for wiring of connector cables and the like.
[0019]
Each of the workstation components (1) to (8) has at least one vertical engaging leg (22) that can fit into any of the fitting holes (16) in the wiring receiver (13). ing.
[0020]
Specifically, in the rightmost table (1) of the rightmost wiring duct device (A4) and the leftmost table (1) of the second rightmost wiring duct device (A3) in FIG. Left and right two leg rods (22) (22) having a plurality of engaging holes (23) arranged on the left and right side surfaces in a vertical direction, and having a horizontal rod (24) at the upper end facing the front and rear direction; One leg rod for floor contacting, which is separated from the rod (22) in the front-rear direction, has length adjustment means (not shown) in the vertical direction, and has left and right overhangs (25a) (25a) at the upper end. By (25), the top plate (26) which is long in the front-rear direction is supported.
[0021]
Between the left and right tables (1) and (1), in the table (2) located on the rear side of the wiring duct device (A3) (A4), the same engagement hole (23) and horizontal rod (24) as described above. ) Are provided, and two floor sticks (27) having a length adjusting means (not shown) are provided on the top plate (28). ) Is supported.
[0022]
Between the left and right tables (1) and (1), in the table (3) located on the front side of the wiring duct device (A3) (A4), the same engagement hole (23) and horizontal rod (24) as described above. The top plate (29), which is narrow in the front-rear direction and long in the left-right direction, is cantilevered only by the three leg rods (22) provided with.
[0023]
As shown in FIG. 1, in the table (4) provided over the wiring duct devices (A1) and (A2) arranged on the left end and on the right side thereof, the same engagement hole (23) and horizontal rod ( 24) and two leg rods (22) (22) (not shown in FIG. 1), and one leg rod (27) having length adjusting means (not shown) for floor contact. ) Supports the front and rear top plates (30) (30) in a triangular or semi-circular shape in plan view.
[0024]
The leg rod (22) fitted into the fitting hole (16) is shorter than the leg rods (25) and (27) for floor contact.
Further, each engagement hole (23) is formed as an oblong that is long in the vertical direction (see FIGS. 6 and 7).
[0025]
As shown in FIG. 1, the vertical partition panel (5) facing in the left-right direction is provided on the lower surface on the left and right side ends with the same engaging holes (23) as described above on both sides. (22) is provided.
[0026]
Further, on the lower surface of the front and rear side end portions of the vertical partition panel (6) facing in the front and rear direction, a leg rod (22) having the same engagement holes (23) as described above is provided on both side surfaces. An elongated floor stick leg (31) is provided in front and rear as a pair.
[0027]
At the rear lower end of the shelf (7), a pair of right and left vertical leg rods (22) (22) having an enlarged-diameter flange (32) is provided at the upper part.
At the rear lower end of the shelf (8), a pair of left and right vertical leg rods (22) fixed to the rear end of a horizontal rod (33) whose upper part faces in the front-rear direction is provided in front of the leg rod (22). At the lower end of the shelf (8), a pair of right and left flooring legs (34) longer than the legs (22) are provided.
[0028]
Next, with reference to FIGS. 4 to 10, a description will be given of a mounting structure of each of the workstation components (1) to (8) to the wiring duct device (A).
[0029]
As shown in FIGS. 4 to 8, the leg rods (22) of the table (1) (the same applies to the tables (2) to (4)) face each other so as to be combined with each other, so that a diameter-expanding flange is formed at the upper end. A plurality of engagements of the leg rods (22) are formed on the inner surfaces of a pair of substantially semi-cylindrical sleeve split pieces (36a) (36a) which form a vertical sleeve (36) provided with the (35). The upper and lower protrusions (37) and (37) are provided so as to be selectively engageable with the holes (23), and the protrusions (37) and (37) are provided with desired engagement holes (23) and (23). ), The leg rod (22) is sandwiched by both sleeve divided pieces (36a) and (36a) from both sides, and the sleeve divided pieces (36a) and (36a) are held around the outer periphery of the leg rod (22). The united sleeve (36) is externally fitted to the cylindrical body (38), and By fitting the reduced diameter step (38a) provided at the lower part of (38) into a desired one of the large number of fitting holes (16) in rows on both sides formed in the wire receiver (13), It is supported upright on the wiring receiver (13).
[0030]
The enlarged-diameter flange (35) of the sleeve (36) is formed by turning an outer peripheral portion thereof downward so as to form an upward annular groove (39) inside the lower surface, and the cylindrical body (39) is formed in the annular groove (39). By fitting the upwardly directed annular ridge (40) provided at the upper end of the (38), mutual displacement and rattling of the two sleeve split pieces (36a) (36a) are prevented. .
[0031]
As shown in FIGS. 7 and 8, the circumferential width of the cylindrical body (38) is fitted to the fitting hole () on the left and right sides of the outer peripheral surface of the reduced diameter step (38 a) in the cylindrical body (38). A horizontal plate-shaped protrusion (41) smaller than the width of the recess (16a) of (16) is formed. On both sides of the upper surface of the projection (41), gentle outwardly downward inclined surfaces (41a) (41a) are formed.
[0032]
A portion of the lower surface of the enlarged-diameter flange portion (38b) above the reduced-diameter step portion (38a) of the cylindrical body (38) facing the projection (41) has a shape substantially complementary to the upper surface of the projection (41). A concave portion (42) is formed.
The distance between the lower surface of the enlarged-diameter flange portion (38b) and the upper surface of the projection (41) in the cylindrical body (38) should be substantially equal to or slightly smaller than the thickness of the wiring receiver (13). preferable.
[0033]
Therefore, the projecting portions (41) and (41) are inserted through the recessed portions (16a) and (16a), and the reduced diameter step (38a) of the cylindrical body (38) is connected to the enlarged diameter flange (38b). It fits in the fitting hole (16) until the lower end abuts on the upper surface of the wiring receiver (13), and then preferably removes the cylindrical body (38) until each projection (41) comes off the recessed part (16a). Is rotated by about 90 ° about the central axis, so that the wire receiver (13) is tight in the gap between the lower surface of the enlarged-diameter flange portion (38b) and the upper surface of the protrusion (41) in the cylindrical body (38). And the cylinder (38) is prevented from coming off from the wiring receiver (13). At this time, the entire cylindrical body (38) or at least each of the projections (41) is preferably formed of an elastically deformable synthetic resin material so that each of the projections (41) can be slightly elastically bent. Good.
[0034]
In the leg rod (22), the upper and lower two projections (37) and (37) of the sleeve division pieces (36a) and (36a) fit into any of the engagement holes (23), and the sleeve division is performed. An enlarged flange (35) of the sleeve (36) formed by the pieces (36a) (36a) is firmly supported by the wire receiver (13) and is prevented from coming off. By engaging with 40), it is firmly supported on the wiring receiver (13).
[0035]
As shown in FIGS. 4 to 7, particularly FIG. 7, the lower portion of the leg rod (22) is inserted into a support hole (44) provided in the support block (43) below the wire receiver (13). I have.
[0036]
The support block (43) has a protruding ridge (45) having a cross-sectional shape formed by a portion of the beam rod (14) below the engaging groove (18) and a downward protruding ridge (19). A pair of upper and lower gripping pieces (46) (47) that engage with upper and lower surfaces are provided.
[0037]
The upper gripping piece (46) is formed integrally with the support block (43), extends rearward and downward from the rear surface of the support block (43), and engages with the engaging groove (18) in the beam rod (14). The lower surface (contact portion) that can be engaged with the inclined surface (18a), which is the upper surface of the ridge (45), is an inclined surface (46a) facing the same direction as the inclined surface (18a).
[0038]
The lower gripping piece (47) is pivotally attached to a support block (43) with an axis (48) having an upper part of the middle part in the front-rear direction facing left and right, and a downward projection (19) of the beam rod (14) is provided at the rear part. ), An upward hook portion (49) engaging with the lower surface of the ridge (45), and the hook portion (49) is engaged with the lower surface of the ridge (45) at the front. 7 is positioned at the gripping position indicated by the solid line, and is aligned with the support hole (44) of the support block (43) and is attached to the outer peripheral surface of the leg (22) fitted into the support hole (44). 7, when the hook portion (49) is in the detached position at which the hook portion (49) is disengaged downward from the lower surface of the ridge (45) as shown by the imaginary line in FIG. (In this case, it is assumed that the leg rod (22) is not fitted into the support hole (44)). When the leg (22) is inserted into the hole (44) from above, the lower end of the leg (22) is pushed by the lower end of the leg (22) to provide a contact portion (50) that can be positioned at the gripping position. ing.
[0039]
As shown in FIG. 6, the lower end of the leg rod (22) smoothly pushes the contact portion (50) of the lower gripping piece (47) when inserted into the support hole (44). It is preferable to be hemispherical or tapered so that the diameter gradually decreases toward the tip.
[0040]
The pair of left and right legs (22) and (22) in the table (1) are firmly supported at the two upper and lower positions of the wire receiver (13) and the beam (14) as described above, and After adjusting the length of (25) according to the height from the floor to the upper end of each leg (22), the horizontal rods (24) and (24) fixed to the upper ends of both legs (22) and (22). The front and rear ends of the top plate (26) are placed and fixed on the upper end of the leg (25) and the leg (25), so that the rear (or front) of the top plate (26) is connected to the wiring duct device (A). ), And the front part (or the rear part) of the top plate (26) is easily supported by the leg rod (25) to be in contact with the floor, and the top plate (26) hanging on the wiring duct device (A). The load is reduced by half.
[0041]
Similarly, the other tables (2) to (4) are similar to the table (3), which uses only the three legs (22) without using the floor rods (25) for floor contact. 29) cantileveredly supported), and can be concentratedly supported by the wiring duct device (A).
[0042]
The partition panel (6) uses the sleeve divided pieces (36a) (36a) and the cylindrical body (38) to connect the leg rod (22) to the wiring receiver (13) in the same manner as supporting the table (1). And the lower part of the leg rod (22) is fitted into the support hole (44) of the support block (43) mounted at the optimum position of the beam rod (14). By doing so, the leg (22) is firmly supported by the wiring duct device (A) and the other leg (31) is in contact with the floor, so that the load is distributed between the wiring duct device (A) and the floor. As a result, it is firmly supported by the wiring duct device (A).
[0043]
Since the leg rod (22) is rotatable around its central axis with respect to the wiring receiver (13) and the support block (43), the partition panel (6) is flat on the leg rod (22). The direction in vision can be freely changed.
[0044]
As shown in FIG. 1, the front of each leg (22) in the pair of front and rear partition panels (6) and (6) is inserted into the front row fitting hole (16) in the wiring receiver (13). Similarly, the rear panel is fitted in the rear row of the fitting holes (16), so that a pair of front and rear partition panels (6) and (6) are provided at the same location in the longitudinal direction of the wiring duct device (A). , Can be disposed so as to extend in both front and rear directions from the wiring duct device (A).
[0045]
Further, the partition panel (5) is supported in the longitudinal direction of the wiring duct device (A) by using the fitting holes (16) in the center row of the wiring receiver (13) as described later. As a result, a large number of partition panels (5) and (6) are firmly supported on substantially the same portion of the wiring duct device (A) so as to intersect in an L shape, a T shape, a cross shape, or the like in plan view. Can be done.
[0046]
As shown in FIGS. 6 and 7, the leg rods (22) on both sides of the partition panel (5) are formed by using the same sleeve split pieces (36a) (36a) and the cylinder (38) as described above. The lower end is fitted on the upper surface of the beam rod (14) so as to be detachable and slidable in the longitudinal direction. It is fitted in the support hole (52) provided in the support block (51), and is firmly supported by the wiring duct device (A) at two upper and lower locations.
[0047]
As shown in FIGS. 9 and 10, the support block (51) is provided with a circular flange (54) at the lower end of a cylindrical body (53) having an inner surface as a support hole (52). An engagement plate (56) having a substantially oval bottom surface is continuously provided through a circular neck (55) at the center of the lower surface of the.
A plurality of reinforcing ribs (57) are provided between the outer peripheral surface of the tubular body (53) and the upper surface of the flange (54).
[0048]
The diameter of the neck (55) and the width of the engagement plate (56) in the short axis direction are smaller than the width of the opening (17a) of the engagement groove (17) formed on the upper surface of the beam (14). The length of the engagement plate (56) in the major axis direction is larger than the width of the opening (17a) of the engagement groove (17), and preferably the width of the lower portion (17b) of the engagement groove (17). It is better to make them approximately equal.
[0049]
Therefore, the support block (51) is arranged such that the longitudinal direction of the engaging plate (56) is substantially right below the fitting hole (16) in the center row where the leg rod (22) is to be fitted. ), The engagement plate (56) is fitted from the opening (17a) to the lower portion (17b) of the engagement groove (17), and then around the center axis of the cylindrical body (53). By rotating the engagement plate (56) by approximately 90 ° to engage both ends of the engagement plate (56) with both sides of the lower portion (17b) of the engagement groove (17), the engagement plate (56) can be easily mounted on the beam rod (14). .
Also, the support block (51) is left as it is, or is slightly rotated in a direction opposite to the above, and is slid in the longitudinal direction of the beam (14) so that the support hole (52) has a desired fit. The position can be easily adjusted so as to be located immediately below the hole (16).
[0050]
The partition panel (5) supports the leg rods (22) and (22) on both sides thereof on the wiring duct device (A) at two upper and lower portions as described above, so that the partition panel (5) does not particularly tilt in the front-rear direction. Strongly supported by
[0051]
The shelf (7) inserts its leg rod (22) into an arbitrary fitting hole (16) in any of the front, rear, and center rows until the enlarged-diameter flange (32) comes into contact with the wiring receiver (13). By fitting and, if necessary, fitting the lower end of the leg rod (22) into the support hole (44) of the support block (43) or the support hole (52) of the support block (51). The wiring duct device (A) can be easily and firmly supported.
[0052]
The shelf (8) is arranged such that the horizontal rod (33) comes into contact with the side beam (12) of the wiring duct device (A), and the leg rod (22) is moved in the same manner as in the shelf (7). By fitting and supporting any of the fitting holes (16) of the wiring duct device (A) and contacting the leg (34) with the floor, most of the load is transferred to the leg (34) and the side beams (34). 12), and can be immovably connected to the wiring duct device (A) by the leg rod (22).
[0053]
In addition, an additional support (not shown) is erected at the upper ends of the pair of left and right support legs (9), (9), and the upper ends of the additional support are connected by a connecting rod (not shown) facing in the left-right direction. The upper ends of the shelves (7) and (8) may be connected to the connecting rod to stabilize the support thereof.
[0054]
In the partition panels (5) and (6) and the tables (1) to (4) that do not require height adjustment, instead of providing the engaging holes (23) in the respective leg rods (22). Alternatively, a diameter-enlarging flange portion (32) similar to that provided on the leg rod (22) of the shelf (7) may be provided, and the lower end thereof may be brought into contact with the upper surface of the wiring receiver (13).
[0055]
FIG. 11 shows a second embodiment of the present invention. It is to be noted that the same members as those in the first embodiment are denoted by the same reference numerals, and are not illustrated, and detailed description thereof will be omitted.
[0056]
In this example, a substantially inverted U-shaped folded portion (20a) is provided at the upper end of the side cover (20), and both ends of the folded portion (20a) are provided on opposing surfaces of a pair of left and right support rods (11). ) Locked, and the side cover (20) is attached to the wiring duct device (A).
[0057]
A downwardly U-shaped fitting part (62) formed at the center of the lower wiring duct (61) is straddled at an appropriate position in the longitudinal direction of the beam rod (14). Various wirings, outlets (64) and the like are accommodated in an upward L-shaped receiving portion (63) extending from both lower portions to both sides.
[0058]
Note that the workstation components are not limited to those described above, and various components having different shapes, structures, and functions can be incorporated.
[0059]
Further, the present invention is not limited to only the above-described embodiment, and can be implemented in various modified forms.
For example, the wiring duct devices (A1) to (A4) are continuously connected, and moving furniture such as a table with a caster and a wagon are arranged on both sides of the wiring duct devices (A1) to (A4). (A4) to supply the wiring.
[0060]
【The invention's effect】
The invention described in each claim can provide the following effects.
Claim 1: Since the front and rear portions of the wiring receiver are reinforced by the front and rear side beams, a large amount of heavy wiring can be accommodated, and members other than the wiring can be firmly supported.
[0061]
Claim 2: Since the second wiring duct can be formed below the wiring receiver, they can be selectively used based on the type of wiring and the like, and the lower wiring duct can also be firmly formed by the beam rod. I can support it.
[0062]
Claim 3: The lower wiring duct can be easily attached to and detached from an arbitrary portion of the beam rod, and at the time of mounting, a large amount of wiring and the like can be supported on both sides of the beam rod.
[0063]
Claim 4: With the front and rear side covers, the front and rear surfaces of the wiring duct device can be concealed in a good manner, and a large wiring accommodation space can be formed inside the wiring duct device.
[Brief description of the drawings]
FIG. 1 is an external perspective view of a workstation device provided with a first embodiment of the present invention.
FIG. 2 is an exploded perspective view of the wiring duct device.
FIG. 3 is an exploded perspective view of a base rod of the wiring duct device.
FIG. 4 is an exploded perspective view showing a situation in which various tables are mounted on the wiring duct device.
FIG. 5 is an enlarged exploded perspective view of a main part.
FIG. 6 is a vertical sectional side view of a main part.
FIG. 7 is an enlarged vertical sectional side view of a main part.
FIG. 8 is a front view of the cylinder.
FIG. 9 is a front view of the support block.
FIG. 10 is a bottom view of the support block.
FIG. 11 is a longitudinal sectional side view of a main part according to a second embodiment of the present invention.
[Explanation of symbols]
(A) (A1) to (A4) Wiring duct device (1) (2) (3) (4) Table (workstation component)
(5) (6) Partition panel (workstation component)
(7) (8) Shelf (workstation component)
(9) support leg (10) base rod (11) support rod (12) side beam (13) wiring receiver (wiring duct)
(13a) Standing piece (14) Beam (15) Standing plate (16) Fitting hole (16a) Recessed part (17) Engagement groove (17a) Opening part (17b) Lower part (18) Engagement groove (18a) ) Inclined surface (19) Downward projection (19a) Inclined surface (20) Side cover (20a) Folded portion (21) End cover (22) Leg for engagement (23) Engagement hole (24) Horizontal rod (25) Flooring leg (25a) Overhang (26) Top plate (27) Flooring leg (28) (29) (30) Top plate (31) Flooring leg (32) Large diameter flange ( 33) Horizontal rod (34) Leg for floor contact (35) Diameter expansion flange (36) Sleeve (36a) Sleeve split piece (37) Projection (38) Cylindrical body (38a) Reduced diameter step (38b) Diameter expansion Collar (39) annular groove (40) annular ridge (41) projection (42) recess (43) support block (44) support hole (45) Ridges (46) (47) gripping pieces (46a) inclined surfaces (48) shafts (49) hooks (50) abutments (51) support blocks (52) support holes (53) cylinders (54) flanges ( 55) neck (56) engaging plate (57) rib (60) protruding shaft (61) lower wiring duct (62) fitting part (63) receiving part (64) outlet

Claims (4)

Both ends of a pair of front and rear side beams facing left and right are fixed to the upper part of a pair of left and right support legs, and a wiring receiver having a U-shape facing upward in side view is installed between the front and rear side beams. And wiring duct equipment. 2. A lower-side wiring duct is provided below a wiring receiver, and a left-right beam is fixed to a lower portion of an opposing surface of a support leg whose opposite ends are opposed to each other. The described wiring duct device. At the center of the lower wiring duct, a downwardly U-shaped fitting portion is provided, and this fitting portion is straddled over a beam rod, and an upward L-shaped portion extending to both sides at a lower portion on both sides of the fitting portion. 3. The wiring duct device according to claim 2, wherein the receiving portions are connected in series. The wiring duct device according to any one of claims 1 to 3, wherein a side cover is detachably provided below the front and rear side beams, and a space surrounded by both side covers and the wiring receiver is a wiring housing space.

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