JP7336354B2 - troughs and trough fittings - Google Patents

Description

TECHNICAL FIELD The present invention relates to troughs used for laying electric power and communication cables or gas pipes, and trough joints used for such troughs.

Conventionally, troughs used for laying electric power and communication cables were generally made of concrete. Recently, lightweight resin troughs have been used. In order to lay the resin trough to a predetermined length, the main pipe section consists of a pair of divided main pipe sections divided in two in the circumferential direction, and the adjacent main pipe section with the ends in the length direction butted against each other. A trough having a joint portion that connects pipe portions is used (see, for example, Patent Document 1).

The trough (cable laying pipe material) described in Patent Document 1 has a cylindrical joint portion ( A coupling member) is inserted to connect the adjacent main pipe sections.

Bands are wound around the ends in both longitudinal directions of the main pipe portion connected by the joint portion to integrate the pair of main pipe portion divisions on the outside of the joint portion. As a result, the main pipe portion is formed, and the main pipe portions adjacent in the length direction are connected by the joint portion.

Japanese Patent No. 3505377

In the trough described in Patent Document 1, since the joint portion is arranged at the inner end portion of the main pipe portion, a band is wound around both ends of the main pipe portion in the longitudinal direction to form a pair of main pipe portions. It was necessary to unify the divided bodies.

Therefore, when constructing the trough or performing maintenance, it is necessary to remove and wind the band at both longitudinal ends of the main pipe, which is time-consuming. .

Furthermore, in the laying of power cables, the power cables in use and the power cables for backup have been housed in one trough. For this reason, when performing maintenance on one of the power cables in use or as a spare, it is necessary to protect the other power cable. Maintenance work for power cables, including such protective treatment, is troublesome.

For the purpose of simplifying the maintenance work, it is conceivable to store the power cable in use and the spare power cable in separate troughs.

However, when laying two troughs in a space for laying one trough, there have been cases where there is almost no gap around the two troughs depending on the laying location. In this situation, the task of winding the band becomes very difficult.

SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a trough and a trough joint that simplify the band winding work and facilitate maintenance.

In order to solve the above problems, a trough according to the present invention is a trough formed of a trough body that is a cylindrical member made of resin, the trough body being divided along the circumferential direction into a plurality of troughs. It is possible to adopt a configuration in which the trough division body positioned below among the plurality of trough division bodies has a band guide passage formed along the outer peripheral portion thereof.

In this configuration, as described above, two troughs may be laid in the space for one trough and there may be little clearance around the two troughs. In this case, the band can be inserted into the band guide passages of the trough sections located below through the slight gaps, and the inserted band can be wound around the plurality of trough sections.

The trough body has a plurality of main pipe portions and a cylindrical joint portion attached in a state of straddling the mutually facing ends of the main pipe portions that are adjacent in the length direction, and the main pipe portion is formed from a plurality of main pipe segment segments divided along the circumferential direction, the joint portion is formed from a plurality of joint segment segments segmented along the circumferential direction, and the trough segment positioned below is formed from the main pipe portion divided body positioned below among the plurality of main pipe portion divided bodies and the joint portion divided body positioned below among the plurality of joint portion divided bodies, and the lower positioned A configuration in which the joint portion divided body has the band guide passage formed along the outer peripheral portion thereof can be adopted.

In this configuration, the band is passed through the band guide passage of the joint portion division body located below, and the band is wound around the joint portion, thereby easily connecting the main pipe portions adjacent in the length direction to form the trough body. can do.

The joint portion has two fitting tubular portions covering the mutually opposing ends of the main pipe portions adjacent in the length direction, and an annular portion located between the two fitting tubular portions. The joint portion divided body has two divided tubular portions forming the two fitting tubular portions, and a divided annular portion forming the annular portion, and the band guide passage is positioned below. It is possible to employ a configuration formed on the outer peripheral portion of the divided annular portion.

In this configuration, by winding the band around the annular portion, the fastening force due to the winding of the band acts evenly on each of the two fitting cylinder portions formed by the two split cylinder portions.

Further, the divided annular portion located below has a guide member attached to the outer peripheral portion thereof with a gap, and the guide member is an inner surface portion facing the outer peripheral portion of the divided annular portion located below. , the inner surface of the guide member is curved downward, and the gap is the band guide passage.

With this configuration, the band guide passage can be easily formed by attaching the guide member to the outer peripheral portion of the divided annular portion located below.

The inner surface portion of the guide member may adopt such a configuration that the cross section perpendicular to the length direction of the main pipe portion has a curvilinear shape consisting of one circular arc or two or more continuous circular arcs.

With this configuration, when the band is inserted through the band guide passage, the tip of the band is smoothly guided by the inner surface portion of the guide member, so that the band can be easily inserted over the entire range in the length direction of the band guide passage. .

Furthermore, a configuration may be adopted in which the guide member is detachable from the outer peripheral portion of the divided annular portion positioned below, and for example, a band guide passage can be formed at the trough laying site.

In the configuration in which the band guide passage is formed on the outer peripheral portion of the divided annular portion located below, the divided annular portion of the joint portion divided body located above among the plurality of joint portion divided bodies is formed on the outer peripheral portion. It is possible to employ a configuration in which a band that has a recess formed therein, is inserted through the band guide passage, and is wound around the annular portion is in a non-contact state with the inner surface of the recess.

With this configuration, the band wound around the annular portion can be easily cut by inserting a cutting tool such as scissors into the recess formed in the divided annular portion.

Further, in order to solve the above problems, the trough joint according to the present invention is a resin-made cylindrical member, and is formed of a plurality of main pipe segmented bodies divided along the circumferential direction. A trough joint that is used in a trough formed by connecting main pipe portions to each other along the length direction, and is attached in a state straddling the mutually facing ends of the main pipe portions that are adjacent to each other in the length direction. ,
A cylindrical member made of resin formed from a plurality of joint portion divided bodies divided along a circumferential direction, wherein the lower joint portion divided body among the plurality of joint portion divided bodies is attached to the outer peripheral portion thereof. Configurations having band guide passages formed therealong can be employed.

In the trough of the present invention, the band can be easily wound around a plurality of trough segments by inserting the band into the band guide passages of the trough segments and simplifying the band winding operation. In addition, depending on the installation location, such as when laying two troughs in the space for laying one trough, it is possible to insert the band through the band guide passage even if there is almost no gap around the two troughs. and facilitates maintenance of the trough.

Further, in the trough joint of the present invention, the band can be easily wound around the annular portion of the joint by inserting the band through the band guide passage of the joint portion divided body, so that the band winding operation can be simplified.

The perspective view which shows the trough of 1st embodiment which concerns on this invention. An exploded perspective view showing the same trough. The perspective view seen from above the upper joint portion divided body same as the above The perspective view seen from the downward direction of the upper joint part division body same as the above. The perspective view of the lower joint part divided body same as the above (a) Perspective view showing a state before the guide member is attached to the divided annular portion of the lower joint divided body of the same above, (b) The guide member is attached to the divided annular portion of the lower joint divided body of the same. (c) A partially cutaway cross-sectional view showing the divided annular portion of the lower joint divided body of the same above, (d) A partially cutaway of the divided annular portion of the lower joint divided body of the same Plan view The perspective view which shows the state which fixed the lower joint part division body in the groove. A perspective view showing a state in which the main pipe section divided bodies are arranged on both sides of the lower joint section divided body. The perspective view which shows the state which mounts an upper joint part division body on a lower joint part division body. Perspective view showing the first trough built into the groove Partial cutaway side view of the first trough built into the trench Cross-sectional view along line AA in FIG. Plan view showing first and second troughs built in trenches The perspective view which shows the trough of 2nd embodiment which concerns on this invention. An exploded perspective view showing the same trough.

A trough according to a first embodiment of the present invention will be described below with reference to FIGS. 1 to 13. FIG. As shown in FIG. 1, the trough according to this embodiment is a tubular joint that connects a plurality of (two in FIG. 1) main pipe portions 1 and main pipe portions 1, 1 adjacent in the length direction. and a part 2.

As shown in FIG. 2, the main pipe portion 1 is a cylindrical member made of resin, and is composed of a pair of main pipe portion division bodies 3, 3 which are vertically divided into two along the circumferential direction.

The main pipe portion divided body 3 is integrally formed with a long rectangular bottom portion 3a, side portions 3b, 3b extending over the entire length from both sides in the width direction of the bottom portion 3a, and an inner peripheral surface portion 3c having a semicircular cross section. It is what was done. By superimposing the pair of main pipe section divisions 3, 3 in the vertical direction, the main pipe section 1 having an outer peripheral surface portion with a square cross-sectional shape and an inner peripheral surface portion with a circular cross-sectional shape is formed.

The joint part 2 is a cylindrical member made of resin, and is provided between a pair of fitting cylinder parts 4 and 5 that cover the ends of the main pipe part 1 in the length direction and between the pair of fitting cylinder parts 4 and 5 . and an annulus 6 positioned thereon. Each of the fitting tubular portions 4 and 5 has a flange portion 7 formed on the side of the annular portion 6 with which the outer end surface of the main pipe portion 1 in the longitudinal direction contacts.

The joint portion 2 is composed of an upper joint portion divided body 8 and a lower joint portion divided body 9 which are vertically divided into two along the circumferential direction. The upper joint portion divided body 8 includes a pair of divided tubular portions 10 and 11 covering the longitudinal ends of the main pipe divided portion 3 and a divided annular portion 12 positioned between the pair of divided tubular portions 10 and 11. have

As shown in FIG. 3, the split tubular portion 10 includes an upper surface portion 10a extending in the width direction of the bottom surface portion 3a of the main pipe portion split body 3, and side surface portions 10b and 10b extending downward from both ends of the upper surface portion 10a. and is formed in a frame shape with a U-shaped cross section.

The upper surface portion 10a is in a state of covering the longitudinal ends of the bottom surface portion 3a of the main pipe portion divided body 3, and the side portions 10b, 10b cover the side portions 3b, 3b of the main pipe portion divided body 3, respectively. in a covered state.

The divided tubular portion 10 covers the upper part of the longitudinal end portion of the main pipe divided body 3 . A seal groove 10 c is formed along the inner peripheral surface of the divided tubular portion 10 along the end opposite to the divided annular portion 12 . A strip-shaped rubber seal (not shown) is attached to the seal groove 10c.

The divided tubular portion 10 has a divided flange portion 10d formed on the divided annular portion 12 side. The split flange portion 10 d has a plate shape and is formed in a state of closing the inner edge portion of the split tubular portion 10 and the outer edge portion of the split annular portion 12 .

The divided tubular portion 11 is formed to have the same size as the divided tubular portion 10, and has an upper surface portion 11a extending in the width direction of the bottom surface portion 3a of the main pipe portion divided body 3 and side portions extending downward from both ends of the upper surface portion 11a. 11b, 11b, and is formed in a frame shape with a U-shaped cross section.

The upper surface portion 11a has an internal thread 11c formed by embedding a nut. The divided tubular portion 11 covers the upper part of the longitudinal end portion of the main pipe divided body 3 .

The divided tubular portion 11 has a divided flange portion 11d formed on the divided annular portion 12 side. The split flange portion 11 d has a plate shape and is formed in a state of closing the inner edge portion of the split tubular portion 11 and the outer edge portion of the split annular portion 12 .

The divided annular portion 12 has a frame shape with a semicircular cross section, and has a flat surface 12a on its upper portion. The divided annular portion 12 is located inside the upper surface portion 10a of the divided cylindrical portion 10 and the respective side portions 10b, 10b.

The flat surface 12a is parallel to the upper surface portion 10a of the divided tubular portion 10 (the upper surface portion 11a of the divided tubular portion 11) and positioned slightly inside (lower). A concave portion 12b is formed in the flat surface 12a. The concave portion 12b is formed so as to extend over part of the upper surface portion 10a of the divided tubular portion 10 and a part of the upper surface portion 11a of the divided tubular portion 11 (see FIG. 3).

As shown in FIG. 4, the lower end surfaces of both the side surface portion 10b of the split tubular portion 10 and the split annular portion 12 in the width direction of the main pipe portion split body 3 are inclined surfaces formed upward from the outside toward the inside. 8a. A lower end surface of each side surface portion 11b of the divided tubular portion 11 is a horizontal surface 8b.

The vertical position of the inner edge of the inclined surface 8a coincides with the vertical position of the horizontal surface 8b. In addition, the lower end surface of each side surface portion 11b of the split tubular portion 11 may be an inclined surface having the same shape as the inclined surface 8a.

As shown in FIG. 5, the lower joint portion divided body 9 includes a pair of divided tubular portions 13 and 14 that cover the longitudinal ends of the main pipe divided portion 3, and a pair of divided tubular portions 13 and 14. It has a split annular portion 15 located therebetween.

The divided tubular portion 13 has a lower surface portion 13a extending in the width direction of the bottom surface portion 3a of the main pipe portion divided body 3, and side surface portions 13b, 13b extending upward from both ends of the lower surface portion 13a. It is formed in the shape of a character frame.

The lower surface portion 13a covers the longitudinal ends of the bottom surface portion 3a of the main pipe divided body 3, and the side surface portions 13b, 13b cover the side surface portions 3b, 3b of the main pipe divided body 3, respectively. in a covered state.

The divided tubular portion 13 covers the lower part of the longitudinal end portion of the main pipe portion divided body 3 . A seal groove 13 c is formed in the inner peripheral surface of the divided tubular portion 13 along the end portion on the side opposite to the divided annular portion 15 . A strip-shaped rubber seal (not shown) is attached to the seal groove 13c.

The divided tubular portion 13 has a divided flange portion 13d formed on the divided annular portion 15 side. The split flange portion 13 d has a plate-like shape and is formed in a state of closing the inner edge portion of the split tubular portion 13 and the outer edge portion of the split annular portion 15 . An insertion hole 13e for a threaded rod 31 serving as an anchor is formed in the lower surface portion 13a.

The divided tubular portion 14 is formed to have the same size as the divided tubular portion 13, and has a lower surface portion 14a extending in the width direction of the bottom surface portion 3a of the main pipe portion divided body 3 and side surfaces extending upward from both ends of the lower surface portion 14a. It has portions 14b, 14b and is formed in a frame shape with a U-shaped cross section. The lower surface portion 14a has an internal thread 14c formed by embedding a nut. The divided tubular portion 14 covers the lower part of the longitudinal end portion of the main pipe divided body 3 .

The divided tubular portion 14 has a divided flange portion 14d formed on the divided annular portion 15 side. The split flange portion 14 d has a plate shape and is formed in a state of closing the inner edge portion of the split tubular portion 14 and the outer edge portion of the split annular portion 15 .

The divided annular portion 15 has a frame shape with a semicircular cross section, and is located inside the lower surface portion 13a of the divided tubular portion 13 and the respective side surface portions 13b, 13b.

The upper end surfaces of both the side surface portion 13b of the divided tubular portion 13 and the divided annular portion 15 in the width direction of the main pipe portion divided body 3 form inclined surfaces 9a that are formed upward from the outside toward the inside. The upper end surface of each side surface portion 14b of the divided cylindrical portion 14 is the horizontal surface 9b.

The vertical position of the inner edge of the inclined surface 9a coincides with the vertical position of the horizontal surface 9b. It should be noted that both upper end surfaces in the width direction of the main pipe portion divided body 3 of the divided tubular portion 14 may be inclined surfaces having the same shape as the inclined surface 9a.

The split annular portion 15 has an arc-shaped outer peripheral portion 15a. A pair of rib portions 15b are integrally formed on the outer peripheral portion 15a. The pair of rib portions 15b are bar-shaped with a rectangular cross section and are formed along the outer peripheral portion 15a along the entire length of the outer peripheral portion 15a. One rib portion 15b is arranged at the end portion of the outer peripheral portion 15a on the divided tubular portion 13 side, and the other rib portion 15b is arranged at the end portion on the divided tubular portion 14 side of the outer peripheral portion 15a.

Further, the lower joint portion divided body 9 has a guide member 16 attached to the outer peripheral portion 15a of the divided annular portion 15 with a gap therebetween. The guide member 16 is a belt-like member that covers the entire surface of the outer peripheral portion 15 a of the divided annular portion 15 .

A pair of engaging claws 16a are formed at one end in the length direction of the guide member 16, and a pair of engaging claws 16b are formed at the other end. As shown in FIG. 5, the pair of engaging claws 16a and the pair of engaging claws 16b are arranged on both sides in the width direction of the guide member 16 and extend inward from each other.

As shown in FIGS. 6(a) and 6(b), the pair of engaging claws 16a engages with the upper portion of one end face portion in the length direction of the pair of ribs 15b, and the pair of engaging claws 16b It engages with the upper portion of the other end face portion in the length direction of the rib portion 15b.

Further, the guide member 16 has an inner surface portion 16c facing the outer peripheral portion 15a of the divided annular portion 15. As shown in FIG. The inner surface portion 16c is curved downward and has a semi-arc shape concentric with the outer peripheral portion 15a of the divided annular portion 15. As shown in FIG.

That is, the cross section of the inner surface portion 16c perpendicular to the length direction of the main pipe portion 1 has a curved shape consisting of one circular arc (semi-circular arc). In addition, the orthogonal cross section of the inner surface portion 16c may be curved with two or more continuous arcs.

Further, the guide member 16 is detachable with respect to the pair of rib portions 15b of the outer peripheral portion 15a of the divided annular portion 15. As shown in FIG. As shown in FIG. 6C, the gap between the inner surface portion 16c of the guide member 16 and the outer peripheral portion 15a of the divided annular portion 15 forms the band guide passage 17. As shown in FIG.

As shown in FIG. 6(d), the band guide passage 17 is in such a state that the upward opening is exposed so as to be visible from above. Further, the band guide passage 17 has an arc-shaped cross section perpendicular to the length direction of the main pipe portion 1 . It should be noted that the band guide passage 17 may have any shape as long as the band 32 passed through the band guide passage 17 is bent at an angle of 90 degrees or more at an arbitrary position inside the band guide passage 17 .

The trough according to this embodiment is constructed as described above. Next, a method for constructing the trough will be described with reference to the drawings.
First, the following work is performed as a preparatory step for constructing the trough. That is, the longitudinal end portion of the main pipe portion divided body 3 is placed on the divided cylindrical portion 14 of the lower joint portion divided body 9 and abutted against the divided flange portion 14d. After that, the bolt 30 penetrating the longitudinal end of the main pipe portion division 3 and the internal thread 14c of the division cylinder portion 14 are screwed together.

Subsequently, the guide member 16 is attached to the outer peripheral portion 15a of the split annular portion 15, and the band guide passage 17 is formed outside the outer peripheral portion 15a of the split annular portion 15. As shown in FIG. In this way, a lower joint section divided body 9 (hereinafter referred to as a lower assembly L) in which the main pipe section divided body 3 is fixed to the divided tubular section 14 is manufactured.

Further, the lengthwise end of the main pipe portion divided body 3 is fitted into the divided cylindrical portion 11 of the upper joint portion divided body 8 and abutted against the divided flange portion 11d. After that, the bolt 30 penetrating the longitudinal end portion of the main pipe portion divided body 3 and the internal thread 11c of the divided tubular portion 11 are screwed together. In this manner, an upper joint portion divided body 8 (hereinafter referred to as an upper assembly U) in which the main pipe portion divided body 3 is fixed to the divided tubular portion 11 is manufactured.

Next, as a trough construction method, first, a plurality of support frames 20 are fixed in a state in which they are spanned in a groove S previously constructed in the underground along a road or railroad track. Each support frame 20 is arranged at predetermined intervals in the longitudinal direction of the groove S. As shown in FIG. After that, anchor holes are formed in each of the support frames 20 .

In this trough construction method, as described above, the electric power cable to be used is laid in the groove S in which one trough is usually constructed, as shown in FIGS. 12 and 13, for the purpose of simplifying the maintenance work. This is a method of constructing a first trough T1 for installation and a second trough T2 for laying a backup power cable.

First, the construction of the first trough T1 is as shown in FIG. It is arranged on the other side in the length direction of S. At this time, the lower assembly L is arranged closer to one groove side surface of the groove S. As shown in FIG.

Further, the threaded rod 31 is inserted through the insertion hole 13e of the divided tubular portion 13 and the anchor hole of the support frame 20. As shown in FIG. Subsequently, the threaded rod 31 is driven into the bottom of the groove S, and a nut (not shown) is tightened from above the split cylinder portion 13 to fix the lower joint portion split body 9 to the support frame 20 .

Similarly, the lower assemblies L are sequentially fixed to the support bases 20 adjacent to each other on one side in the groove S in the longitudinal direction. At this time, as shown in FIG. 8, the main pipe portion divided body 3 of the lower assembly L is placed on the divided cylindrical portion 13 of the lower assembly adjacent to the other in the longitudinal direction of the groove S, and is attached to the divided flange portion 13d. Strike. After that, the power cables C are laid on the plurality of lower assemblies L arranged along the length of the groove S.

Subsequently, the upper joint divided body 8 of the upper assembly U is placed on the lower joint divided body 9 of the lower assembly L. As shown in FIG. The upper assembly U has the split tubular portion 10 on one side in the length direction of the groove S, and the split tubular portion 11 on the other side in the length direction of the groove S (see FIG. 9).

Similarly, the upper assembly U is sequentially placed on the lower assembly L adjacent to the groove S on the other side in the length direction. At this time, the divided tubular portion 10 of the upper assembly is fitted into the main pipe divided body 3 of the upper assembly U adjacent to one side of the groove S in the longitudinal direction, and is abutted against the divided flange portion 10d.

By sequentially placing the upper assembly U on the lower assembly L, the main pipe portion 1 is formed from the pair of upper and lower main pipe portion divided bodies 3, 3, and the upper joint portion divided body 8 and the lower joint portion divided body 9 are formed. A joint portion 2 is formed. The split tubular portions 10 and 13 form the fitting tubular portion 4 , the split tubular portions 11 and 14 form the fitting tubular portion 5 , and the split annular portions 12 and 15 form the annular portion 6 .

Thereafter, as shown in FIG. 10 , a stainless steel band 32 is passed through the band guide passage 17 from above and wound around the annular portion 6 of the joint portion 2 on each of the support bases 20 . The wound band 32 is bound within the concave portion 12b of the divided annular portion 12. As shown in FIG. At this time, the band 32 is in a non-contact state with the inner surface of the concave portion 12b of the split annular portion 12 . The main pipe portions 1, 1 adjacent in the longitudinal direction are connected by the joint portion 2 that binds the band 32, and the first trough T1 is constructed in the groove S.

Subsequently, the second trough T2 installed alongside the first trough T1 of the groove S is constructed. Specifically, the second trough T2 is constructed in the same manner as the method for constructing the first trough T1. Here, when the band 32 is wound around the annular portion 6 of the joint portion 2 when constructing the second trough T2, as shown in FIG. T1 and the other groove side surface of the groove S exist, and there is almost no gap between them and the second trough T2.

In this embodiment, a band guide passage 17 is formed in advance in the lower joint portion divided body 9 of the second trough T2. Therefore, as shown in FIG. 12 , the band 32 can be passed through the band guide passage 17 of the second trough T2 and wound around the annular portion 6 of the joint portion 2 .

Thus, when two troughs are laid in the groove S, the work of winding the band 32 can be simplified even if there is almost no gap around the two troughs.

Further, as shown in FIG. 13, in the first trough T1 and the second trough T2 constructed, the band 32 is bound within the concave portion 12b of the divided annular portion 12. As shown in FIG. By inserting a cutting tool below the band 32 in the recess 12b, the band 32 can be easily cut. When the band 32 is cut to release the binding by the band 32, the upper assembly U can be easily removed, thereby facilitating maintenance of the trough.

As shown in FIG. 11, the constructed first trough T1 is formed in a state in which the main pipe portion 1 is in contact with a pair of upper and lower main pipe portion divided bodies 3, 3. As shown in FIG. In addition, a gap X is formed in the vertical direction between the upper joint part divided body 8 and the lower joint part divided body 9 of the joint part 2 in the first trough T1. Also, the joint portion 2 connects the ends of the trough main pipe portions 1, 1 adjacent to each other in the length direction.

This gap X consists of a first gap X1 formed between the inclined surface 8a of the upper joint divided body 8 and the inclined surface 9a of the lower joint divided body 9, and the horizontal surface 8b of the upper joint divided body 8. and a second gap portion X2 formed between the lower joint portion divided body 9 and the horizontal surface 9b.

In the first trough T1, when the band 32 is wound around the annular portion 6 of the joint portion 2 and tightened, the divided tubular portions 10 and 11 of the upper joint divided body 8 and the divided tubular portion 13 of the lower joint divided body 9, 14 presses the pair of main pipe section divisions 3, 3 vertically inward.

In this state, the split tubular portions 10 and 11 of the upper joint portion split body 8 and the split tubular portions 13 and 14 of the lower joint portion split body 9 do not contact each other. can be kept in contact with each other. As a result, in the groove S, foreign matter can be prevented from entering the trough main pipe portion 1 formed by the pair of main pipe portion divisions 3,3.

As shown in FIG. 12 , the first gap portion X1 of the gap X is formed upward from the outer side of the joint portion 2 toward the inner side. Therefore, intrusion of foreign matter such as dust and moisture can be suppressed in the joint portion 2 . Since the second trough T2 also has a structure similar to that of the first trough T1, the explanation of its operation is omitted.

In addition, the trough main pipe portion 1 of this embodiment may be formed from three or more main pipe portion divided bodies divided along the circumferential direction. Also, the joint portion 2 may be formed from three or more joint portion divided bodies divided along the circumferential direction. In this case, the band guide passage 17 may be formed by attaching the guide member 16 to the outer peripheral portion of the divided annular portion of the joint portion divided body positioned below among the three or more joint portion divided bodies.

A second embodiment of the invention will be described with reference to FIGS. 14 and 15. FIG. In the trough of the second embodiment, resin It is formed by a trough body 40 which is a tubular member made of.

The trough of the second embodiment has an upper trough division 41 and a lower trough division 42 in which the trough body 40 is divided vertically along the circumferential direction. It differs from the first embodiment in that it has an annular portion 6 formed in the middle of the direction, and the lower trough split body 42 has a band guide passage 17 formed along the outer peripheral portion of the split annular portion 15 . do. In other configurations, the same configurations as those in the first embodiment are denoted by the same reference numerals, and descriptions thereof are omitted.

As shown in FIG. 14, the trough body 40 is a tubular member having a rectangular cross-sectional shape, and has an annular portion 6 formed in the middle in the longitudinal direction. The trough body 40 has a projecting tubular portion 43 formed at one end in the length direction and a fitting recess 44 formed at the other end in the length direction.

The fitting cylinder portion 43 protrudes longitudinally outward from the inner peripheral surface of the trough body 40 . The protruding tubular portion 43 has an outer peripheral portion recessed inwardly from the outer peripheral portion of the trough body 40 to the inner peripheral portion with respect to the outer peripheral portion of the trough body 40 . The fitting recess 44 is formed in the inner peripheral portion of the trough body 40 so as to be recessed outward toward the outer peripheral portion of the trough body 40 . The fitting cylinder part 43 is spigot-fitted into the fitting recessed part 44 of the trough body 40 adjacent to one side in the length direction.

As shown in FIG. 15, the upper trough divided body 41 includes a divided annular portion 12 formed midway in the length direction, an upper protruding portion 43a formed at one end in the length direction, and a and an upper recess 44a formed at the other end. The divided annular portion 12 has a frame shape with a semicircular cross section, and has a flat surface 12a on its upper portion. The divided annular portion 12 is formed to protrude inward from the inner peripheral surface of the upper trough divided body 41 . A concave portion 12b is formed in the flat surface 12a.

The lower trough divided body 42 includes a divided annular portion 15 formed at an intermediate position in the length direction, a lower projecting portion 43b formed at one end in the length direction, and an end on the other side in the length direction. and a lower recessed portion 44b formed in the . An insertion hole 42a for a threaded rod (not shown) serving as an anchor is formed at one longitudinal end of the lower trough segment 42 .

The divided annular portion 15 has a frame shape with a semicircular cross section and is formed in a state of protruding inward from the inner peripheral surface of the lower trough divided body 42 . The split annular portion 15 has an arc-shaped outer peripheral portion 15a. A pair of rib portions 15b are integrally formed on the outer peripheral portion 15a.

The lower trough split body 42 has a guide member 16 attached to the outer peripheral portion 15a of the split annular portion 15 with a gap therebetween. The guide member 16 is a belt-like member that covers the entire surface of the outer peripheral portion 15 a of the divided annular portion 15 . A pair of engaging claws 16a are formed at one end in the length direction of the guide member 16, and a pair of engaging claws 16b are formed at the other end.

Further, the guide member 16 has an inner surface portion 16c facing the outer peripheral portion 15a of the split annular portion 15, and the pair of engaging claws 16a and 16b are arranged against the pair of rib portions 15b of the outer peripheral portion 15a of the split annular portion 15. It is removable. A gap between the inner surface portion 16 c of the guide member 16 and the outer peripheral portion 15 a of the divided annular portion 15 forms the band guide passage 17 .

The trough of the second embodiment is configured as described above, in which a plurality of trough bodies 40 are arranged along the length direction, and the projecting cylindrical portion 43 and the fitting recess 44 of the trough bodies 40 adjacent to each other in the length direction are arranged. are mated with each other. At this time, each of the trough bodies 40 and the lower trough segment 42 are fixed to a support frame (not shown) by anchor screw rods (not shown) inserted through the through holes 42a.

A band guide passage 17 is formed in advance in the lower trough segment 42 of the trough body 40 . A band 32 is passed through the band guide passage 17 and wound around the annular portion 6 . The wound band 32 allows the upper trough segment 41 and the lower trough segment 42 to be integrated to form the trough body 40 .

In addition, in the second embodiment, as in the first embodiment, two troughs are laid in the space for laying one trough, and even if there is almost no gap around the two troughs, the lower The band 32 can be passed through the band guide passage 17 of the side trough segment 42 and wound around the upper trough segment 41 and the lower trough segment 42 .

1 main pipe portion 2 joint portion 3 main pipe portion divided bodies 4, 5 fitting cylinder portion 6 annular portion 7 flange portion 8 upper joint portion divided body 9 lower joint portion divided bodies 10, 11 divided cylinder portion 12 divided annular portion 12a Flat surface 12b Concave portions 13, 14 Divided cylindrical portion 15 Divided annular portion 15a Outer peripheral portion 15b Rib portion 16 Guide members 16a, 16b Engagement claw 16c Inner surface portion 17 Band guide passage 32 Band 40 Trough body 41 Upper trough divided body 42 Lower trough Divided body 42a Through hole 43 Protruding cylindrical portion 43a Upper protruding portion 43b Lower protruding portion 44 Fitting recess 44a Upper recess 44b Lower recess

Claims (8)

A trough formed from a trough body that is a cylindrical member made of resin, the trough body being formed from a plurality of trough divisions obtained by dividing the trough body along a circumferential direction. a trough segment having a band guide passage formed along its outer circumference, and said trough body being positioned between a plurality of main pipe sections and longitudinally adjacent main pipe sections facing each other and a cylindrical joint portion attached in a state straddling the end portion, the main pipe portion is formed from a plurality of main pipe portion divided bodies divided along the circumferential direction, and the joint portion is formed in the circumferential direction The lower trough division is composed of a plurality of joint portion divisions divided along the main pipe portion division, and the plurality of joint divisions A trough formed by a lower joint portion division of the partial divisions, wherein the lower joint portion division has the band guide passage formed along an outer peripheral portion thereof. The joint portion has two fitting tubular portions covering the mutually opposing ends of the main pipe portions adjacent in the length direction, and an annular portion located between the two fitting tubular portions. The joint portion divided body has two divided tubular portions forming the two fitting tubular portions, and a divided annular portion forming the annular portion, and the band guide passage is positioned below. 2. The trough according to claim 1, which is formed on the outer peripheral portion of the split annular portion. The divided annular portion located below has a guide member attached to the outer peripheral portion thereof with a gap, and the guide member has an inner surface facing the outer peripheral portion of the divided annular portion located below. 3. The trough according to claim 2 , wherein the inner surface of said guide member is curved downward, and said gap is said band guide passage. 4. The trough according to claim 3 , wherein the inner surface portion of the guide member has a curved cross-section perpendicular to the length direction of the main pipe portion, which is composed of one circular arc or two or more continuous circular arcs. 5. The trough according to claim 3, wherein the guide member is attachable to and detachable from the outer peripheral portion of the divided annular portion positioned below. The divided annular portion of the upper joint portion divided body among the plurality of joint portion divided bodies has a recess formed in the outer peripheral portion thereof, is inserted through the band guide passage, and is wound around the annular portion. 6. A trough according to any one of claims 3 to 5, wherein said band is in non-contact with the inner surface of said recess. A trough formed from a trough body that is a cylindrical member made of resin, the trough body being formed from a plurality of trough divisions obtained by dividing the trough body along a circumferential direction. a trough segment located at has a band guide passage formed along its outer periphery;
The trough segment located below has a split annular part and a guide member attached to the outer peripheral part of the split annular part with a gap, wherein the inner peripheral surface of the guide member and the split annular part trough, wherein said clearance between said band guide passage and said outer circumference of said trough. A trough formed by connecting a plurality of main pipe sections, which are cylindrical members made of resin and which are formed from a plurality of main pipe section divisions divided along the circumferential direction, to each other along the length direction. A trough joint that is used and attached in a state straddling the mutually facing ends of the main pipe portions that are adjacent in the longitudinal direction,
A cylindrical member made of resin formed from a plurality of joint portion divided bodies divided along a circumferential direction, wherein the lower joint portion divided body among the plurality of joint portion divided bodies is attached to the outer peripheral portion thereof. A trough joint having a band guide passage formed therealong.

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