JP2024030837A - Elevator hoistway wiring device - Google Patents

Abstract

The present invention provides an elevator hoistway wiring device capable of fixing a plurality of types of round cables 41 having different diameters. An elevator hoistway wiring device includes a cable cleat (10) and a pressing piece (20). The cable cleat 10 has a space 14 through which a round cable 41 arranged in the hoistway extends in the vertical direction, and is inclined from the top to the bottom in the vertical direction so as to approach the round cable 41 side. It has an inclined surface 13a. The pressing piece 20 is inserted into the space 14 between the inclined surface 13a and the round cable 41, and presses the round cable 41. The pressing piece 20 has a first surface that is inclined along the inclined surface 13a and comes into sliding contact with the inclined surface 13a, and a second surface that is parallel to the vertical direction and that contacts the round cable 41, and a third surface that is in contact with the round cable 41. It has the aspect of The second surface and the third surface are inclined in different directions. [Selection diagram] Figure 1

Description

The present disclosure relates to an elevator hoistway wiring device.

A conventional elevator hoistway wiring device includes a semicircular groove-shaped cable cleat with a semicircular strip provided at its intermediate front portion, and a pressing piece having a crescent-shaped cross section. By inserting the round cable into the cable cleat and driving the pressing piece between the round cable and the semi-circular band plate, the round cable is crimped and clamped between the cable cleat and the pressing piece, and the elevator hoistway is closed. A round cable is fixed along the wall (see, for example, Patent Document 1).

Publication No. 51-090094

The pressing piece of the conventional elevator hoistway wiring device described above has a crescent-shaped cross section. In other words, the side surface of the pressing piece that contacts the round cable is curved along the round cable. For this reason, an elevator hoistway wiring device including such a pressing piece has a problem in that only a round cable having a specific diameter can be fixed.

The present disclosure has been made to solve the above-mentioned problems, and an object of the present disclosure is to obtain an elevator hoistway wiring device capable of fixing a plurality of types of round cables having different diameters.

The elevator hoistway wiring device according to the present disclosure has a space for passing a round cable arranged in the hoistway so as to extend in the vertical direction, and has a space for passing a round cable from the top to the bottom in the vertical direction. The cable cleat includes a cable cleat having an inclined surface that is inclined toward the cable cleat, and a pressing piece that is inserted into a space between the inclined surface and the round cable and presses the round cable. a first surface that is inclined to the side and comes into sliding contact with the inclined surface, and a second surface and a third surface that are in contact with the round cable, and the second surface and the third surface are inclined in mutually different directions. do.

The elevator hoistway wiring device according to the present disclosure has a space for passing a round cable arranged in the hoistway so as to extend in the vertical direction, and has a space for passing a round cable from the top to the bottom in the vertical direction. A cable cleat that is inserted into a space between a cable cleat that has an inclined surface that slopes toward the cable cleat, and a pressing piece that presses the round cable and that is inserted into the space between the sloped surface and the round cable and that faces the pressing piece with the round cable in between. a support member disposed in the empty space, the pressing piece has a first surface that is inclined along the slope and makes sliding contact with the slope, and one of the pressing piece and the support member is provided with: The other has an eighth surface in contact with the round cable on one surface, a ninth surface and a tenth surface in contact with the round cable on two surfaces, and the ninth surface and the tenth surface The surfaces are inclined in different directions.

According to the elevator hoistway wiring device according to the present disclosure, multiple types of round cables with different diameters can be fixed.

1 is a perspective view of an elevator hoistway wiring device in Embodiment 1. FIG. FIG. 3 is a perspective view of the cable cleat in the first embodiment. FIG. 2 is a side view of the elevator hoistway wiring device in Embodiment 1. FIG. FIG. 3 is a perspective view of a pressing piece in Embodiment 1. FIG. 3 is a perspective view of a support member in Embodiment 1. FIG. 3 is a perspective view of a cable cleat and a support member in Embodiment 1. FIG. FIG. 2 is a sectional view taken along line A-A' of the elevator hoistway wiring device according to the first embodiment. 1 is a perspective view of an elevator hoistway wiring device in Embodiment 1. FIG. FIG. 2 is a cross-sectional view taken along line B-B' of the elevator hoistway wiring device according to the first embodiment. FIG. 3 is a cross-sectional view taken along line A-A' of the elevator hoistway wiring device when the diameter of the round cable is reduced in the first embodiment. FIG. 7 is a perspective view showing a modification of the cable cleat in the first embodiment. FIG. 7 is a sectional view showing a modification of the elevator hoistway wiring device according to the first embodiment. FIG. 7 is a perspective view of a cable cleat, a support member, and an auxiliary support member in Embodiment 2. FIG. 7 is a side view of an elevator hoistway wiring device according to a second embodiment. FIG. 3 is a sectional view taken along line C-C' of the elevator hoistway wiring device according to the second embodiment. FIG. 7 is a perspective view of an elevator hoistway wiring device according to a third embodiment. FIG. 7 is a cross-sectional view taken along line DD' of the wiring device in the elevator hoistway in Embodiment 3; FIG. 7 is a perspective view of an elevator hoistway wiring device according to a third embodiment. FIG. 7 is a sectional view taken along the line E-E' of the elevator hoistway wiring device in Embodiment 3; FIG. 7 is a perspective view showing a modification of the elevator hoistway wiring device in Embodiment 3; FIG. 7 is a sectional view taken along the line E-E' showing a modification of the elevator hoistway wiring device in Embodiment 3; It is a perspective view of the auxiliary press piece in Embodiment 4. It is a perspective view of the press piece and auxiliary press piece in Embodiment 4. FIG. 7 is a side view of an elevator hoistway wiring device according to a fourth embodiment. FIG. 7 is a cross-sectional view taken along line F-F' of the wiring device in the elevator hoistway in Embodiment 4. It is a perspective view of the wiring device in an elevator hoistway in Embodiment 5. FIG. 7 is a GG′ cross-sectional view of the elevator hoistway wiring device in Embodiment 5. It is a perspective view of the wiring device in an elevator hoistway in Embodiment 5. FIG. 7 is a cross-sectional view taken along line H-H' of the wiring device in the elevator hoistway in Embodiment 5. FIG. 7 is a front view of an elevator hoistway wiring device attached to a world ductor according to a sixth embodiment. FIG. 7 is a cross-sectional view taken along line I-I' of the wiring device in the elevator hoistway in Embodiment 6; FIG. 7 is a plan view of an elevator hoistway wiring device attached to a world ductor in a sixth embodiment.

Embodiment 1.
The elevator hoistway wiring device according to the first embodiment will be described in detail below. Note that the same reference numerals in each drawing represent the same or equivalent configurations.

As shown in FIG. 1, the elevator hoistway wiring device fixes a round cable 41 arranged in the hoistway so as to extend in the vertical direction. The elevator hoistway wiring device includes a cable cleat 10, a support member 30, and a pressing piece 20. Specifically, the round cable 41 refers to a cable having a plurality of insulated wires further covered with a retaining coating, and whose cross section is circular. Note that the round cable 41 is a single conductor coated with an insulator, and may have a circular cross section. Moreover, the vertical direction is a direction parallel to the direction in which a guide rail 44, which will be described later, extends. The direction perpendicular to the vertical direction is called the horizontal direction. Among the horizontal directions, a direction parallel to a direction from one side plate 12 (described later) to the other side plate 12 (described later) is referred to as a left-right direction. Among the horizontal directions, the direction perpendicular to the left-right direction is called the depth direction.

As shown in FIG. 2, the cable cleat 10 is made of metal such as stainless steel and has a square pyramid shape. The cable cleat 10 has a back plate 11, side plates 12, side plates 13, and a cavity 14. The back plate 11 is a plate arranged parallel to the vertical direction. The back plate 11 is formed to have a rectangular shape when viewed from the front. A screw hole portion 11a is provided at the center of the back plate 11. The screw hole portion 11a is a hole into which a screw 42 is inserted in order to fix the cable cleat 10, and extends through the screw hole portion 11a in the depth direction.

The side plate 12 is a plate arranged parallel to the vertical direction. The side plate 12 is formed in a trapezoidal shape in which the upper base is longer than the lower base when viewed from the side. Further, two side plates 12 are provided and are arranged parallel to each other. One ends of the two side plates 12 are arranged at one end and the other end of the back plate 11, respectively. The side plates 12 intersect with the back plate 11 perpendicularly.

The side plate 13 is a plate that is inclined with respect to the vertical direction. The side plate 13 is arranged at the other end of the side plate 12 and intersects with the side plate 12. Two side plates 13 are provided and are arranged with an interval W between them. The side plate 13 has an inclined surface 13a facing the back plate 11. As shown in FIG. 3, when the round cable 41 is passed through the space 14, the inclined surface 13a is inclined from vertically upward to downward so as to approach the round cable 41 side.

The void 14 is a space that penetrates in the vertical direction. Specifically, the empty space 14 is a space where one side plate 12 and the other side plate 12 face each other in the horizontal direction. A round cable 41 is passed through the space 14.

As shown in FIG. 1, the pressing piece 20 is inserted into the space 14 between the inclined surface 13a and the round cable 41 in order to fix the round cable 41, and pushes the round cable 41 toward the support member 30. Press. As shown in FIG. 4, the pressing piece 20 is a conical frustum, and is made of synthetic rubber such as nitrile rubber so that its cross section is a concave pentagon. In other words, the pressing piece 20 is formed such that its cross-sectional area becomes smaller from the top to the bottom in the vertical direction. The pressing piece 20 has a first surface 21, a second surface 22, and a third surface 23.

As shown in FIG. 3, similarly to the inclined surface 13a, when the round cable 41 is passed through the space 14 and the pressing piece 20 is inserted into the space 14, the surface 21 is formed vertically from above to below. It is slanted toward the round cable side. In other words, the surface 21 is inclined along the inclined surface 13a. Moreover, when the pressing piece 20 is inserted into the space 14, the surface 21 comes into sliding contact with the inclined surface 13a.

The surfaces 22 and 23 are parallel to the vertical direction and are inclined in the tangential direction of the round cable 41. In other words, the surface 22 and the surface 23 are inclined with respect to the depth direction. Surface 22 and surface 23 are inclined in different directions. Further, the plane 22 intersects the plane 23 perpendicularly. Therefore, one interior angle θ1 of the concave pentagonal cross section of the pressing piece 20 is 270 degrees.

As shown in FIGS. 1 and 3, the support member 30 is arranged in the space 14 of the cable cleat 10 so as to face the pressing piece 20 with the round cable 41 in between, and supports the round cable 41.

As shown in FIG. 5, the support member 30 is a prismatic column made of synthetic rubber such as nitrile rubber so that its cross section is a concave pentagon. The support member 30 has a fourth surface 31 , a fifth surface 32 , and a screw hole 33 . The surfaces 31 and 32 are parallel to the vertical direction and are inclined in the tangential direction of the round cable 41. In other words, the surface 31 and the surface 32 are inclined with respect to the depth direction. Surface 31 and surface 32 are inclined in different directions. Further, the plane 31 intersects the plane 32 perpendicularly. Therefore, one interior angle θ2 of the concave pentagonal cross section of the support member 30 is 270 degrees.

The screw hole portion 33 is a hole into which a screw 42 is inserted in order to attach the support member 30, and penetrates in the depth direction. Further, the screw hole portion 33 is provided so as to overlap the screw hole portion 11a of the cable cleat 10 when the support member 30 is placed in the space 14.

Next, a procedure for fixing the round cable 41 using the elevator hoistway wiring device configured as described above and a state of the elevator hoistway wiring device when the round cable 41 is fixed will be described.

First, a worker attaches the support member 30 to the cable cleat 10 and attaches the cable cleat 10 to the attachment arm 43. As shown in FIG. 6, a guide rail 44 is provided in the hoistway to guide the elevator car (not shown) or a counterweight (not shown) up and down. A mounting arm 43 that projects in one direction in the horizontal direction is attached to the guide rail 44 via a pair of rail clips 45 . The mounting arm 43 is provided with a mounting hole (not shown) through which the screw 42 is passed. With the support member 30 placed in the cavity 14 of the cable cleat 10, the worker installs the screw hole 33 of the support member 30, the screw hole 11a of the cable cleat 10, and the attachment hole (not shown) of the attachment arm 43. ) and tighten it.

Next, the worker passes the round cable 41 through the cavity 14. Specifically, the worker passes the round cable 41 through the space 14 by passing between one inclined surface 13a and the other inclined surface 13a. Note that the round cable 41 may be inserted into the space 14 from above and passed through the space 14.

Finally, the worker inserts the pressing piece 20 into the space 14 between the inclined surface 13a and the round cable 41 from above in the vertical direction. Specifically, the worker inserts the pressing piece 20 into the empty space 14 by hitting it with a mallet. When the pressing piece 20 is inserted into the space 14, the pressing piece 20 presses the round cable 41 toward the support member 30. Therefore, the round cable 41 is fixed.

At this time, as shown in FIG. 7, the surfaces 22, 23, 31, and 32 are in contact with the round cable 41. Further, the round cable 41 is sandwiched between the pressing piece 20 and the support member 30 from both sides in the depth direction. A portion of the round cable 41 on the pressing piece 20 side is sandwiched between surfaces 22 and 23 from the left and right, and a portion of the round cable 41 on the support member 30 side is sandwiched between the surfaces 22 and 23 from the left and right. and surface 32.

Next, a procedure for fixing the round cable 46 by the elevator hoistway wiring device and the state of the elevator hoistway wiring device when the round cable 46 is fixed will be described. The round cable 46 is a round cable whose diameter is larger than the diameter of the round cable 41.

The procedure for fixing the round cable 46 using the elevator hoistway wiring device is similar to the procedure for fixing the round cable 41 described above. The round cable 46 is fixed by an elevator hoistway wiring device as shown in FIG.

When the elevator hoistway wiring device fixes the round cable 46, the surfaces 22, 23, 31, and 32 are in contact with the round cable 46, as shown in FIG. Further, the round cable 46 is sandwiched between the pressing piece 20 and the support member 30 from both sides in the depth direction. A portion of the round cable 46 on the pressing piece 20 side is sandwiched between surfaces 22 and 23 from the left and right, and a portion of the round cable 41 on the support member 30 side is sandwiched between the surfaces 22 and 23 from the left and right. and surface 32.

As described above, the elevator hoistway wiring device can fix a plurality of types of round cables 41 and 46 having different diameters.

The round cable 41 may be deformed due to the surrounding environment in which it is installed or deterioration over time. Thereby, the diameter of the round cable 41 changes. The mechanism by which the elevator hoistway wiring device fixes the round cable 41 when the diameter of the round cable 41 changes in this manner will be described. Note that the deformation of the round cable 41 is, for example, expansion or contraction.

First, a case where the diameter of the round cable 41 is reduced will be explained. When the diameter of the round cable 41 becomes smaller, a gap 47 is created between the round cable 41 and the pressing piece 20 as shown in FIG. 10, and the cross-sectional area that the pressing piece 20 can occupy in the AA' cross section is To increase.

The pressing piece 20 is formed so that its cross-sectional area decreases from the top to the bottom in the vertical direction. Therefore, when the pressing piece 20 moves downward, the cross-sectional area of the pressing piece 20 in the A-A' cross section can be increased. Furthermore, when the pressing piece 20 moves upward, the cross-sectional area of the pressing piece 20 in the A-A' cross section can be reduced.

Therefore, the pressing piece 20 slides downward along the inclined surface 13a of the cable cleat 10 by the increased cross-sectional area that the pressing piece 20 can occupy in the A-A' cross section. In other words, the pressing piece 20 slides downward along the inclined surface 13a of the cable cleat 10 by its own weight so as to fill the gap 47. Then, the pressing piece 20 presses the round cable 41 again. Therefore, the round cable 41 is fixed again.

Next, a case where the diameter of the round cable 41 is increased will be explained. As the diameter of the round cable 41 increases, the area that the pressing piece 20 can occupy in the A-A' cross section decreases.

The pressing piece 20 slides upward along the inclined surface 13a of the cable cleat 10 as the cross-sectional area that the pressing piece 20 can occupy in the A-A' cross section is reduced. Then, the pressing piece 20 presses the round cable 41 again. Therefore, the round cable 41 is fixed again.

As described above, in the elevator hoistway wiring device according to the first embodiment, the wiring device is inserted into the space 14 between the inclined surface 13a and the round cables 41 and 46, and the round cables 41 and 46 are connected to each other. A pressing piece 20 for pressing is provided. The pressing piece 20 has a surface 22 and a surface 23 that are parallel to the vertical direction and contact the round cables 41 and 46 . Surface 22 and surface 23 are inclined in different directions. Therefore, the present invention can be applied to a plurality of types of round cables 41 and 46 having different diameters, and the round cables 41 and 46 can be fixed in the hoistway. Further, a part of the round cable 41 is sandwiched between the surfaces 22 and 23 from the left and right directions. Therefore, movement of the round cable 41 in the left-right direction is suppressed.

Furthermore, in the elevator hoistway wiring device according to the first embodiment, the round cable 41 is fixed by the pressing piece 20 pressing the round cable 41 toward the support member 30 side. In this way, since the round cable 41 is not fixed by tightening the screw, it is possible to prevent the round cable 41 from being broken due to excessive tightening of the screw by an operator. Further, when fixing the round cable 41 by tightening screws, it is necessary to control the tightening torque of the screws, which requires a long working time. On the other hand, when the round cable 41 is fixed by the pressing piece 20, there is no need to manage the tightening torque of the screw, and the working time can be shortened. Therefore, work efficiency can be improved.

Furthermore, the elevator hoistway wiring device according to the first embodiment includes a pressing piece 20 that is inclined along the inclined surface 13a of the cable cleat 10 and has a surface 31 that is in sliding contact with the inclined surface 13a. Therefore, even if the diameter of the round cable 41 changes due to the surrounding environment where it is installed or due to deterioration over time, the pressing piece 20 slides along the slope 13a to press the round cable 41 again. , can be fixed.

Furthermore, in the elevator hoistway wiring device according to the first embodiment, it is arranged in the empty space 14 so as to face the pressing piece 20 with the round cable 41 interposed therebetween, and is arranged in a plane parallel to the vertical direction. A support member 30 having a surface 31 and a surface 32 in contact with the dovetail round cable 41 is provided. Surface 31 and surface 32 are inclined in mutually different directions. With such a configuration, a part of the round cable 41 is sandwiched between the surfaces 31 and 32 from the left and right directions. Therefore, movement of the round cable 41 in the left-right direction is suppressed. Moreover, since the round cable 41 is sandwiched between the pressing piece 20 and the support member 30 from both sides in the depth direction, movement in the depth direction is suppressed.

Although the example in which the cable cleat 10 is attached to the mounting arm 43 has been described, the cable cleat 10 may be attached to the wall of the hoistway.

Although an example in which two side plates 13 are provided has been described, as shown in FIG. 11, one side plate 13 may be provided.

Note that when fixing a round cable 48 having a larger diameter than the round cables 41 and 46, the support member 30 may not be provided as shown in FIG. In this case, when the pressing piece 20 is inserted into the space 14, the pressing piece 20 presses the round cable 49 toward the back plate 11 side. Therefore, the round cable 49 is fixed. Further, since the round cable 41 is sandwiched between the back plate 11 and the pressing piece 20 from both sides in the depth direction, movement in the depth direction is suppressed. Further, since a portion of the round cable 41 is sandwiched between the surfaces 22 and 23 from the left and right, movement in the left and right directions is suppressed.

Note that although an example has been described in which the surface 22 intersects with the surface 23 perpendicularly, it is not necessary that they intersect perpendicularly. Furthermore, although an example has been described in which the surfaces 31 and 32 intersect perpendicularly, they do not have to intersect perpendicularly.

Embodiment 2.
In the first embodiment, an example in which the elevator hoistway wiring device fixes the round cable 41 has been described. In the second embodiment, an example will be described in which an elevator hoistway wiring device fixes a round cable 49 having a smaller diameter than the round cable 41. Specifically, this embodiment differs from Embodiment 1 in that an auxiliary support member 50 is provided, so the differences will be described below.

The elevator hoistway wiring device includes a cable cleat 10, a support member 30, a pressing piece 20, and an auxiliary support member 50.

As shown in FIG. 13, the auxiliary support member 50 is a prismatic column made of synthetic rubber such as nitrile rubber so as to have a concave hexagonal cross section. The auxiliary support member 50 has a sixth surface 51 , a seventh surface 52 , a surface 53 , a surface 54 , and a screw hole portion 55 . The surfaces 51 and 52 are parallel to the vertical direction, and are inclined in the tangential direction of the round cable 49. In other words, the surface 51 and the surface 52 are inclined with respect to the depth direction. Surface 51 and surface 52 are inclined in different directions. Further, the surface 51 intersects the surface 52 perpendicularly. Therefore, one interior angle θ3 of the concave hexagonal cross section of the auxiliary support member 50 is 270 degrees.

Surface 53 and surface 54 are parallel to the vertical direction. The surface 53 is sloped along the surface 31 of the support member 30, and the surface 54 is sloped along the surface 32 of the support member 30. Surface 53 and surface 54 are inclined in different directions.

The screw hole portion 55 is a hole into which the screw 42 is inserted in order to attach the auxiliary support member 50, and penetrates in the depth direction. Further, the screw hole portion 55 is provided so as to overlap the screw hole portion 11a and the screw hole portion 33 when the support member 30 and the auxiliary support member 50 are arranged in the space 14.

Next, a procedure for fixing the round cable 49 using the elevator hoistway wiring device configured as described above and a state of the elevator hoistway wiring device when the round cable 41 is fixed will be described.

First, the worker attaches the auxiliary support member 50 to the support member 30, attaches the support member 30 to the cable cleat 10, and attaches the cable cleat 10 to the attachment arm 43. Specifically, the worker places the support member 30 and the auxiliary support member 50 in the empty space 14 of the cable cleat 10 . At this time, the auxiliary support member 50 is arranged so that the surface 31 of the support member 30 is in contact with the surface 53 of the auxiliary support member 50, and the surface 32 of the support member 30 is in contact with the surface 54 of the auxiliary support member 50. In this state, insert the screws 42 into the screw holes 55 of the auxiliary support member 50, the screw holes 33 of the support member 30, the screw holes 11a of the cable cleat 10, and the mounting holes (not shown) of the mounting arms 43. ,tighten. Note that in FIG. 13, illustration of the mounting arm 43 is omitted.

Next, the worker passes the round cable 49 through the cavity 14. Specifically, the worker passes the round cable 49 through the space 14 between the inclined surfaces 13a. Note that the round cable 49 may be inserted into the space 14 from above and passed through the space 14.

Finally, the worker inserts the pressing piece 20 into the space 14 between the inclined surface 13a and the round cable 41 from above in the vertical direction. Specifically, the worker inserts the pressing piece 20 into the empty space 14 by hitting it with a mallet. As shown in FIG. 14, when the pressing piece 20 is inserted into the space 14, the pressing piece 20 presses the round cable 49 toward the auxiliary support member 50. Therefore, the round cable 49 is fixed.

At this time, as shown in FIG. 15, the auxiliary support member 50 is placed in the space 14 between the round cable 49 and the support member 30. Surface 22 , surface 23 , surface 51 and surface 52 are in contact with round cable 49 . Further, the round cable 49 is sandwiched between the auxiliary support member 50 and the pressing piece 20 from both sides in the depth direction. A portion of the round cable 41 on the pressing piece 20 side is sandwiched between surfaces 22 and 23 from the left and right, and a portion of the round cable 49 on the auxiliary support member 50 side is sandwiched between the surfaces 22 and 23 from the left and right. 51 and a surface 52.

As described above, in the elevator hoistway wiring device according to the second embodiment, the cable is disposed in the space 14 between the round cable 49 and the support member 30, is attached to the support member 30, and is mounted in the vertical direction. The auxiliary support member 50 has a surface 51 and a surface 52 that are parallel to the round cable 49 and contact the round cable 49. Surface 51 and surface 52 are inclined in mutually different directions. Therefore, it is possible to fix a round cable 49 with a small diameter that cannot be fixed using only the support member 30 and the pressing piece 20. Further, a part of the round cable 49 is sandwiched between the surfaces 51 and 52 from the left and right directions. Therefore, movement of the round cable 49 in the left-right direction is suppressed. Further, since the round cable 49 is sandwiched between the pressing piece 20 and the auxiliary support member 50 from both sides in the depth direction, movement in the depth direction is suppressed.

Embodiment 3.
In the first embodiment, an example has been described in which the pressing piece 20 contacts the round cable 41 on two surfaces. In Embodiment 3, an example will be described in which the pressing piece 20 contacts the round cable 41 on one surface. Specifically, since the shape of the pressing piece 20 is different from that in Embodiment 1, the difference will be explained below.

As shown in FIG. 16, the pressing piece 20 is a frustum, and is made of synthetic rubber such as nitrile rubber so that its cross section is square. In other words, the pressing piece 20 is formed such that its cross-sectional area becomes smaller from the top to the bottom in the vertical direction. The pressing piece 20 has a first surface 21 and an eighth surface 24.

The surface 24 is a surface parallel to the vertical direction and the left-right direction. The surface 21 is inclined along the inclined surface 13a. In other words, the surface 21 is inclined so as to approach the surface 24 from vertically upward to downward.

Note that in this embodiment, the surface 31 of the support member 30 is the ninth surface, and the surface 32 is the tenth surface.

The procedure for fixing the round cable 41 using the elevator hoistway wiring device configured as described above is the same as the procedure for fixing the round cable 41 using the elevator hoistway wiring device of the first embodiment. The round cable 41 is fixed by an elevator hoistway wiring device as shown in FIG.

When the round cable 41 is fixed by the elevator hoistway wiring device, the surfaces 24, 31, and 32 are in contact with the round cable 41, as shown in FIG. That is, the pressing piece 20 is in contact with the round cable 41 on one surface 24, and the support member 30 is in contact with the round cable 41 on two surfaces 31 and 32. Further, the round cable 41 is sandwiched between the pressing piece 20 and the support member 30 from both sides in the depth direction. A part of the round cable 41 on the supporting member 30 side is sandwiched between the surfaces 31 and 32 from the left and right.

The procedure for fixing the round cable 46 using the elevator hoistway wiring device according to the present embodiment is the same as the procedure for fixing the round cable 41 using the elevator hoistway wiring device according to the first embodiment. The round cable 46 is fixed by an elevator hoistway wiring device as shown in FIG.

When the round cable 46 is fixed by the elevator hoistway wiring device, the surfaces 24, 31, and 32 are in contact with the round cable 41, as shown in FIG. That is, the pressing piece 20 is in contact with the round cable 41 on one surface 24, and the support member 30 is in contact with the round cable 41 on two surfaces 31 and 32. Further, the round cable 41 is sandwiched between the pressing piece 20 and the support member 30 from both sides in the depth direction. A part of the round cable 41 on the supporting member 30 side is sandwiched between the surfaces 31 and 32 from the left and right.

As described above, the elevator hoistway wiring device can fix a plurality of types of round cables 41 and 46 having different diameters.

As described above, the elevator hoistway wiring device according to the third embodiment includes the pressing piece 20 that presses the round cables 41 and 46 and the support member 30 that supports the round cables 41 and 46. The pressing piece 20 has a surface 34 that contacts the round cables 41 and 46. The support member 30 has a surface 21 and a surface 22 that are parallel to the vertical direction and contact the round cables 41 and 46 . Therefore, the present invention can be applied to a plurality of types of round cables 41 and 46 having different diameters, and the round cables 41 and 46 can be fixed in the hoistway. Further, a portion of the round cable 41 is sandwiched between the surfaces 21 and 22 from the left and right directions. Therefore, movement of the round cable 41 in the left-right direction is suppressed. Further, since the round cable 41 is sandwiched between the pressing piece 20 and the support member 30 from both sides in the depth direction, movement in the depth direction is suppressed.

As shown in FIGS. 20 and 21, the support member 30 has an eighth surface 34 that is in contact with the round cable 41 on one surface, and the pressing piece 20 is in contact with the round cable 41 on two surfaces. It may have a surface 22 that is the ninth surface and a surface 23 that is the tenth surface that are in contact with each other. In this case, the support member 30 is a prismatic column made of synthetic rubber such as nitrile rubber so that its cross section is square. The surface 34 is a surface parallel to the vertical direction and the left-right direction.

Even with this configuration, the present invention can be applied to a plurality of types of round cables 41, 46 having different diameters, and the round cables 41, 46 can be fixed in the hoistway. Further, a part of the round cable 41 is sandwiched between the surfaces 22 and 23 from the left and right directions. Therefore, movement of the round cable 41 in the left-right direction is suppressed. Furthermore, since the round cable 41 is sandwiched between the pressing piece 20 and the support member 30 from both sides in the depth direction, movement in the depth direction is suppressed.

Embodiment 4.
In the first embodiment, an example in which the elevator hoistway wiring device fixes the round cable 41 has been described. In the second embodiment, an example will be described in which an elevator hoistway wiring device fixes a round cable 49 having a smaller diameter than the round cable 41. Specifically, this embodiment differs from Embodiment 1 in that an auxiliary pressing piece 60 is provided, so the difference will be described below.

The elevator hoistway wiring device includes a cable cleat 10, a support member 30, a pressing piece 20, and an auxiliary pressing piece 60.

As shown in FIG. 22, the auxiliary pressing piece 60 is a prism, and is made of synthetic rubber such as nitrile rubber so that its cross section is a concave hexagon. The auxiliary pressing piece 60 has a surface 61 that is an eleventh surface, a surface 62 that is a seventh surface, a surface 63, and a surface 64. The surfaces 61 and 62 are parallel to the vertical direction and are inclined in the tangential direction of the round cable 49. Surface 61 and surface 62 are inclined in different directions. Further, the plane 61 intersects the plane 62 perpendicularly. Therefore, one interior angle θ4 of the concave hexagonal cross section of the auxiliary support member 50 is 270 degrees.

Surface 63 and surface 64 are parallel to the vertical direction. The surface 63 is sloped along the surface 22 of the pressing piece 20, and the surface 64 is sloped along the surface 23 of the pressing piece 20. Surface 63 and surface 64 are inclined in different directions. As shown in FIG. 23, the auxiliary pressing piece 60 is attached to the pressing piece 20 with a screw (not shown).

Next, a procedure for fixing the round cable 49 using the elevator hoistway wiring device configured as described above and a state of the elevator hoistway wiring device when the round cable 49 is fixed will be described.

Similar to the procedure for fixing the round cable 41 using the elevator hoistway wiring device of Embodiment 1, the worker first attaches the support member 30 to the cable cleat 10 and attaches the cable cleat 10 to the attachment arm 43. Next, the worker passes the round cable 49 through the cavity 14.

Finally, the worker inserts the pressing piece 20, to which the auxiliary pressing piece 60 is attached, into the space 14 between the inclined surface 13a and the round cable 49 from above in the vertical direction. Specifically, the worker inserts the pressing piece 20 to which the auxiliary pressing piece 60 is attached into the space 14 by hitting it with a mallet. As shown in FIG. 24, when the pressing piece 20 and the auxiliary pressing piece 60 are inserted into the space 14, the pressing piece 20 and the auxiliary pressing piece 60 press the round cable 41 toward the support member 30. Therefore, the round cable 41 is fixed.

At this time, as shown in FIG. 25, the auxiliary pressing piece 60 is placed in the space 14 between the round cable 49 and the pressing piece 20. Surface 31 , surface 32 , surface 61 , and surface 62 are in contact with round cable 49 . Further, the round cable 49 is sandwiched between the support member 30 and the auxiliary pressing piece 60 from both sides in the depth direction. A part of the round cable 41 on the support member 30 side is sandwiched between the surfaces 21 and 22 from the left and right, and a part of the round cable 41 on the auxiliary pressing piece 60 side is sandwiched between the surfaces 21 and 22 from the left and right. 61 and a surface 62.

As described above, in the elevator hoistway wiring device according to the fourth embodiment, the cable is placed in the space between the round cable 49 and the support member 30, is attached to the pressing piece 20, and is The auxiliary pressing piece 60 has a surface 61 and a surface 62 that are parallel to the round cable 49 and contact the round cable 49. Surface 61 and surface 62 are inclined in different directions. Therefore, it is possible to fix a round cable 49 with a small diameter that cannot be fixed using only the support member 30 and the pressing piece 20. Further, a portion of the round cable 49 is sandwiched between the surfaces 61 and 62 from the left and right directions. Therefore, movement of the round cable 49 in the left-right direction is suppressed. Further, since the round cable 49 is sandwiched between the support member 30 and the auxiliary pressing piece 60 from both sides in the depth direction, movement in the depth direction is suppressed.

Note that the auxiliary support member 50 described in Embodiment 2 may be used in combination with this example. By fixing the round cable by an elevator hoistway wiring device comprising an auxiliary support member 50 attached to the support member 30 and an auxiliary press piece 60 attached to the press piece 20, the diameter of the round cable is smaller than that of the round cable 49. Round cables can be fixed.

Embodiment 5.
In the first embodiment, an example in which the surface 22 of the pressing piece 20 intersects with the surface 23 has been described. In Embodiment 5, an example will be described in which another surface is arranged between surface 22 and surface 23 of pressing piece 20. Specifically, since the shape of the pressing piece 20 is different from that in Embodiment 1, the difference will be explained below.

As shown in FIGS. 26 and 27, the pressing piece 20 is a conical pedestal, and is made of synthetic rubber such as nitrile rubber so that its cross section is a concave hexagon. In other words, the pressing piece 20 is formed such that its cross-sectional area becomes smaller from the top to the bottom in the vertical direction. The pressing piece 20 has a first surface 21, a second surface 22, and a third surface 23. Furthermore, the pressure piece has a surface 25 arranged between surfaces 22 and 23.

The surface 21 is a surface that slopes along the slope 13a. The surfaces 22 and 23 are parallel to the vertical direction and are inclined in the tangential direction of the round cable 41. Surface 22 and surface 23 are inclined in different directions. The surface 25 is a surface parallel to the vertical direction and the left-right direction. Surface 25 is arranged between surfaces 22 and 23 and intersects with surfaces 22 and 23.

The procedure for fixing the round cable 41 using the elevator hoistway wiring device according to the present embodiment is the same as the procedure for fixing the round cable 41 using the elevator hoistway wiring device according to the first embodiment. The round cable 41 is fixed by an elevator hoistway wiring device as shown in FIG.

When the elevator hoistway wiring device fixes the round cable 41, the surfaces 22, 23, 31, and 32 are in contact with the round cable 41, and the surface 25 is in contact with the round cable 41, as shown in FIG. It is not in contact with 41. Further, the round cable 41 is sandwiched between the pressing piece 20 and the support member 30 from both sides in the depth direction. A portion of the round cable 41 on the pressing piece 20 side is sandwiched between surfaces 22 and 23 from the left and right, and a portion of the round cable 41 on the support member 30 side is sandwiched between the surfaces 22 and 23 from the left and right. and surface 32.

The procedure for fixing the round cable 46 using the elevator hoistway wiring device according to the present embodiment is the same as the procedure for fixing the round cable 41 using the elevator hoistway wiring device according to the first embodiment. The round cable 46 is fixed by an elevator hoistway wiring device as shown in FIG.

When the round cable 46 is fixed by the elevator hoistway wiring device, as shown in FIG. It is not in contact with cable 41. Further, the round cable 41 is sandwiched between the pressing piece 20 and the support member 30 from both sides in the depth direction. A portion of the round cable 41 on the pressing piece 20 side is sandwiched between surfaces 22 and 23 from the left and right, and a portion of the round cable 41 on the support member 30 side is sandwiched between the surfaces 22 and 23 from the left and right. and surface 32.

As described above, the elevator hoistway wiring device can fix a plurality of types of round cables 41 and 46 having different diameters.

As described above, the elevator hoistway wiring device according to the fifth embodiment includes the pressing piece 20 that presses the round cables 41 and 46 and the support member 30 that supports the round cables 41 and 46. . The pressing piece 20 has a surface 22 and a surface 23 that are parallel to the vertical direction and contact the round cables 41 and 46 . Surface 22 and surface 23 are inclined in different directions. Further, the support member 30 has a surface 31 and a surface 32 that are parallel to the vertical direction and contact the round cables 41 and 46 . Surface 31 and surface 32 are inclined in different directions. Therefore, the present invention can be applied to a plurality of types of round cables 41 and 46 having different diameters, and the round cables 41 and 46 can be fixed in the hoistway. Further, a part of the round cable 41 is sandwiched between the surfaces 22 and 23 from the left and right directions. Therefore, movement of the round cable 41 in the left-right direction is suppressed. Furthermore, since the round cable 41 is sandwiched between the pressing piece 20 and the support member 30 from both sides in the depth direction, movement in the depth direction is suppressed.

Although the example in which one surface 25 is arranged between the surfaces 22 and 23 of the pressing piece has been described, a plurality of surfaces may be arranged between the surfaces 22 and 23.

Note that, similarly to the pressing piece 20, the support member 30 may also have another surface disposed between the surface 31 and the surface 32.

Embodiment 6.
In the first embodiment, an example in which the cable cleat 10 is directly attached to the attachment arm 43 has been described. In the sixth embodiment, an example will be described in which the cable cleat 10 is attached to the attachment arm 43 via the world conductor 70. Specifically, since the shape of the cable cleat 10 and the procedure for fixing the round cable 41 are different from those of the first embodiment, the differences will be explained below.

As shown in FIGS. 30 and 31, the world conductor 70 has a band shape and is formed of metal so as to have a substantially U-shape when viewed from the side. World conductor 70 is attached to attachment arm 43. A plurality of elevator hoistway wiring devices are attached to the world duct 70. Note that in FIGS. 30 and 31, illustration of the mounting arm 43 is omitted.

The world conductor 70 has an opening 71 and an engaging part 72. When attaching the cable cleat 10 to the world conductor 70, the claw portion 15, which will be described later, passes through the opening 71 and is hooked onto the engaging portion 72.

As shown in FIG. 32, the cable cleat 10 is made of metal such as stainless steel and has a U-shape when viewed from above. The cable cleat 10 has a side plate 12, a side plate 13, a cavity 14, and a claw portion 15.

The side plate 12 is a plate arranged parallel to the vertical direction. The side plate 13 is a plate that is inclined with respect to the vertical direction. The side plate 13 is arranged at the other end of the side plate 12 and intersects with the side plate 12. One side plate 13 is provided. The side plate 13 has an inclined surface 13a. As shown in FIG. 31, when the round cable 41 is passed through the cavity 14 and the pressing piece 20 is inserted into the cavity 14, the inclined surface 13a is directed downward from the top in the vertical direction toward the round cable. It's tilted closer.

The claw portion 15 is provided at the end of the side plate 12. When the cable cleat 10 is attached to the world conductor 70, the claw portion 15 is hooked onto and engaged with the engagement portion 72 of the world conductor 70.

The support member 30 is formed of metal so as to have a substantially U-shape when viewed from the side. The support member 30 has a surface 35 that is an eighth surface that contacts the round cable 41 on one surface when the round cable 41 is fixed. The surface 35 is a surface parallel to the vertical direction and the left-right direction. In this embodiment, the surface 22 of the pressing piece 20 is the ninth surface, and the surface 23 is the tenth surface.

Next, a procedure for fixing the round cable 41 using the elevator hoistway wiring device configured as described above and a state of the elevator hoistway wiring device when the round cable 41 is fixed will be described.

First, the worker attaches the world conductor 70 to the mounting arm 43. Next, the worker attaches the support member 30 to the world ductor 70. The support member 30 is attached so as to partially cover the opening 71.

Next, the worker attaches the cable cleat 10 to the world ductor 70. Specifically, the round cable 41 is passed through the space 14 between one side plate 12 and the other side plate 12, and the cable cleat 10 is brought closer to the world conductor 70 side. Then, the worker hooks the claw portion 15 onto the engaging portion 72 to engage the claw portion 15 and the engaging portion 72.

Finally, the worker inserts the pressing piece 20 into the space 14 between the inclined surface 13a and the round cable 41 from above in the vertical direction. Specifically, the worker inserts the pressing piece 20 into the space 14 by hitting it with a mallet. As shown in FIG. 31, when the pressing piece 20 is inserted into the space 14, the pressing piece 20 presses the round cable 41 toward the support member 30. Therefore, the round cable 41 is fixed.

After fixing one round cable 41, the worker installs another elevator hoistway wiring device on the world duct 70 and fixes the other round cable 41.

When the elevator hoistway wiring device fixes the round cable 41, the surfaces 22, 23, and 35 are in contact with the round cable 41, as shown in FIG. Further, the round cable 41 is sandwiched between the support member 30 and the pressing piece 20 from both sides in the depth direction. A part of the round cable 41 on the pressing piece 20 side is sandwiched between the surfaces 22 and 23 from the left and right.

As described above, in the elevator hoistway wiring device according to the sixth embodiment, a plurality of elevator hoistway wiring devices are attached to the world conductor 70. Therefore, a plurality of round cables 41 within the hoistway can be fixed.

Furthermore, the elevator hoistway wiring device according to the sixth embodiment can be applied to a plurality of types of round cables 41 and 46 having different diameters, as in the third embodiment. , 46 can be fixed within the hoistway. Further, a portion of the round cable 41 is sandwiched between the surfaces 21 and 22 from the left and right directions. Therefore, movement of the round cable 41 in the left-right direction is suppressed. Further, since the round cable 41 is sandwiched between the pressing piece 20 and the support member 30 from both sides in the depth direction, movement in the depth direction is suppressed.

Hereinafter, various aspects of the present disclosure will be collectively described as supplementary notes.
(Additional note 1)
A cable that has a space for passing a round cable arranged in a hoistway so as to extend in the vertical direction, and has an inclined surface that slopes from above in the vertical direction toward the round cable side. Cleats and
a pressing piece that is inserted into the space between the inclined surface and the round cable and presses the round cable,
The pressing piece has a first surface that is inclined along the slope and comes into sliding contact with the slope, and a second surface that is parallel to the vertical direction and contacts the round cable. It has 3 sides,
In the elevator hoistway wiring device, the second surface and the third surface are inclined in different directions.
(Additional note 2)
It is arranged in the empty space so as to face the pressing piece across the round cable, and has a fourth face and a fifth face that are parallel to the vertical direction and in contact with the round cable. further comprising a support member;
The elevator hoistway wiring device according to supplementary note 1, wherein the fourth surface and the fifth surface are inclined in mutually different directions.
(Additional note 3)
A sixth surface and a seventh surface that are arranged in the empty space between the round cable and the support member, are attached to the support member, are parallel to the vertical direction, and are in contact with the round cable. further comprising: an auxiliary support member having a surface;
The elevator hoistway wiring device according to appendix 2, wherein the sixth surface and the seventh surface are inclined in mutually different directions.
(Additional note 4)
A cable that has a space for passing a round cable arranged in a hoistway so as to extend in the vertical direction, and has an inclined surface that slopes from above in the vertical direction toward the round cable side. Cleats and
a pressure piece inserted into the space between the inclined surface and the round cable to press the round cable; and a pressure piece arranged in the space so as to face the pressure piece across the round cable. and a support member that
The pressing piece has a first surface that is inclined along the inclined surface and comes into sliding contact with the inclined surface,
Either one of the pressing piece and the supporting member has an eighth surface that contacts the round cable on one side, and the other is a surface that is parallel to the vertical direction and is in contact with the round cable. has a ninth surface and a tenth surface that are in contact with the two surfaces,
In the elevator hoistway wiring device, the ninth surface and the tenth surface are inclined in different directions.
(Appendix 5)
An eleventh surface and a twelfth surface that are arranged in the space between the round cable and the pressing piece, are attached to the pressing piece, are parallel to the vertical direction, and are in contact with the round cable. further comprising: an auxiliary pressing piece having a surface;
The elevator hoistway wiring device according to any one of Supplementary Notes 1 to 4, wherein the eleventh surface and the twelfth surface are inclined in mutually different directions.

DESCRIPTION OF SYMBOLS 10 Cable cleat, 13a Inclined surface, 14 Hole, 20 Pressing piece, 21 surface, 22 surface, 23 surface, 24 surface, 30 Support member, 31 surface, 32 surface, 34 surface, 41 Round cable, 46 Round cable , 48 round cable, 49 round cable, 50 auxiliary support member, 51 surface, 52 surface, 60 auxiliary pressing piece, 61 surface, 62 surface

Claims (5)

A cable that has a space for passing a round cable arranged in a hoistway so as to extend in the vertical direction, and has an inclined surface that slopes from above in the vertical direction toward the round cable side. Cleats and
a pressing piece that is inserted into the space between the inclined surface and the round cable and presses the round cable,
The pressing piece has a first surface that is inclined along the slope and comes into sliding contact with the slope, and a second surface that is parallel to the vertical direction and contacts the round cable. It has 3 sides,
In the elevator hoistway wiring device, the second surface and the third surface are inclined in different directions. It is arranged in the empty space so as to face the pressing piece across the round cable, and has a fourth face and a fifth face that are parallel to the vertical direction and in contact with the round cable. further comprising a support member;
The elevator hoistway wiring device according to claim 1, wherein the fourth surface and the fifth surface are inclined in mutually different directions. A sixth surface and a seventh surface that are arranged in the empty space between the round cable and the support member, are attached to the support member, are parallel to the vertical direction, and are in contact with the round cable. further comprising: an auxiliary support member having a surface;
The elevator hoistway wiring device according to claim 2, wherein the sixth surface and the seventh surface are inclined in mutually different directions. A cable that has a space for passing a round cable arranged in a hoistway so as to extend in the vertical direction, and has an inclined surface that slopes from above in the vertical direction toward the round cable side. Cleats and
a pressure piece inserted into the space between the inclined surface and the round cable to press the round cable; and a pressure piece arranged in the space so as to face the pressure piece across the round cable. and a support member that
The pressing piece has a first surface that is inclined along the inclined surface and comes into sliding contact with the inclined surface,
Either one of the pressing piece and the supporting member has an eighth surface that contacts the round cable on one side, and the other is a surface that is parallel to the vertical direction and is in contact with the round cable. has a ninth surface and a tenth surface that are in contact with the two surfaces,
In the elevator hoistway wiring device, the ninth surface and the tenth surface are inclined in different directions. An eleventh surface and a twelfth surface that are arranged in the space between the round cable and the pressing piece, are attached to the pressing piece, are parallel to the vertical direction, and are in contact with the round cable. further comprising: an auxiliary pressing piece having a surface;
The elevator hoistway wiring device according to any one of claims 1 to 4, wherein the eleventh surface and the twelfth surface are inclined in mutually different directions.

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