JP2014227243A - Renewal method for passenger conveyor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a renewal method for a passenger conveyor for installing a new truss in an internal space of an existing truss which enables stable transfer of a truss segment of a new truss on the existing truss.SOLUTION: A renewal method for a passenger conveyor comprises fitting a plurality of carriers 4 to a truss segment and carrying the truss segment by moving the carriers 4 along the upper surface of the existing truss 1, in a process of installing a plurality of truss segments, in order, in an internal space of an existing truss 1. In a preparation step, an extension rail member 6 extending obliquely upward, with the same inclination as that of the inclination part 12, on the upper surface of an inclination part 12 of the existing truss 1 on which the carriers 4 are to move is attached to the existing truss 1. In a carriage step, the truss segment attached with the carriers 4 is moved between the upper surface of the inclination part 12 of the existing truss 1 and the upper surface of the extension rail member 6.

Description

  The present invention relates to a method for renewing a passenger conveyor such as an escalator.

2. Description of the Related Art Conventionally, a renewal method has been known in which, in an escalator, a new truss is installed in the internal space of an existing truss without removing the existing truss, and the new truss is combined with the existing truss (Patent Document 1).
According to the renewal method, it is possible to shorten the renewal work period.

In such a renewal method, a renewal method is known in which a new truss is divided into a plurality of truss segments in the longitudinal direction, and these truss segments are sequentially installed in the internal space of the existing truss (patent) Reference 2).
According to the renewal method, all the truss segments are installed in the internal space of the existing truss while the internal space of the existing truss is moved along the existing truss, and these truss segments are connected to each other, thereby A new truss can be completed in the interior space.

  Further, in such a renewal method, one or a plurality of gate-type liftings are provided in each of the upper horizontal part, the inclined part and the lower horizontal part of the existing truss in the step of moving the truss segment along the existing truss. A construction method in which equipment is deployed and the truss segment is lifted using the chain blocks provided in these portal lifting devices, and the truss segment is moved from the lower horizontal part of the existing truss to the upper horizontal part via the inclined part. Has been proposed (Patent Document 3).

Furthermore, in the renewal method of moving the truss segment along the existing truss, four transport tools having wheels that can roll on the upper surface of the existing truss are attached to the front, rear, left, and right of the truss segment, and the truss is supported by the transport tool. It has been proposed to transport segments (Patent Document 4).
According to the renewal method, a plurality of truss segments that should constitute the newly installed truss can be easily transported along the existing truss.

JP 58-152779 A JP 2005-314085 A JP 2008-44684 A JP 2010-70313 A

  By the way, in the renewal method of attaching four transport tools to the truss segment and transporting the truss segment along the existing truss, in the step of installing the truss segment on the upper horizontal side of the existing truss, The operation of moving the truss segment from the inclined portion of the existing truss to the horizontal portion of the upper floor is carried out by pulling up by the upper gate type lifting device provided in the horizontal portion of the side.

  In this case, the truss segment moves from the inclined portion of the existing truss to the upper floor horizontal portion, and at the same time, the truss segment moves from the inclined posture when moving the inclined portion to the horizontal posture when moving the upper floor horizontal portion. Since the posture changes abruptly, the chain block that lifts the truss segment is operated to balance the lifting force in the forward direction and the lifting force in the backward direction. It is necessary to gradually shift the truss segment from the inclined part of the existing truss to the upper horizontal part while controlling the posture.

  However, when the truss segment moves from the inclined part of the existing truss to the horizontal part on the upper floor side, the wire of the chain block that lifts the truss segment is obliquely directed from the front upper gate type lifting device to the truss segment. As a result, the truss segment cannot be lifted in the retracting direction, and the truss segment can be stably transferred from the inclined part of the existing truss to the upper horizontal part. There was no problem.

  Accordingly, an object of the present invention is to provide a renewal method for a passenger conveyor in which a newly installed truss is divided into a plurality of truss segments in the longitudinal direction and these truss segments are sequentially installed in the internal space of the existing truss. The truss segment to be installed on the upper floor side horizontal part of the truss from the inclined part of the existing truss to the upper floor side horizontal part, or the truss segment to be installed on the inclined part of the existing truss or the lower floor side horizontal part of the existing truss It is to make a stable transition from the upper floor side horizontal part to the inclined part.

The renewal method of the passenger conveyor according to the present invention is such that the newly installed truss to be installed in the internal space of the existing truss is divided into a plurality of truss segments in the longitudinal direction, and these truss segments are sequentially placed inside the existing truss. It will be installed in the space,
A preparatory process of deploying a portal lifting device at least in the horizontal section of the upper floor of the existing truss;
In the process of sequentially installing the plurality of truss segments in the internal space of the existing truss, a plurality of transports that can be arranged on the upper surface extending in the longitudinal direction of the existing truss in the truss segment to be transported And a transporting step of transporting the truss segment while moving the plurality of transporting tools along the upper surface using the portal lifting device.

In the preparation step, an extension rail member is attached to the existing truss so that the upper surface of the inclined portion of the existing truss where the transport tool is moved extends obliquely upward with the same inclination.
And in the said conveyance process, the truss segment to which the said several conveyance tool was attached is moved over the upper surface of the inclination part of an existing truss, and the upper surface of an extension rail member.

  In a specific aspect, in the transporting step, in the process of transporting the truss segment to be installed on the upper horizontal side of the existing truss upward, the truss segment is moved along the upper surface of the inclined portion of the existing truss, By moving the truss segment along the upper surface of the extension rail member, the truss segment is transported to a position below the portal lifting device, and then the truss segment is removed from the extension rail member using the portal lifting device. Detach and install on the upper floor horizontal part of the existing truss.

  Alternatively, in the transporting process, in the process of transporting the truss segment to be installed on the lower horizontal portion or the inclined portion of the existing truss downward, the truss segment is lifted using the portal lifting device. After being lifted at a lower position of the heavy equipment and installed on the extension rail member, the truss segment is moved along the upper surface of the extension rail member, and further moved along the upper surface of the existing truss.

  In another specific aspect, when the truss segment is installed in the upper horizontal portion of the existing truss or after the truss segment is installed in the upper horizontal portion, the extension rail member is removed from the existing truss.

  In another specific aspect, in the lower position of the portal lifting device, the portal lifting device can be used to apply a lifting force in the forward direction and a lifting force in the backward direction to the truss segment. Is possible.

  Further, the extension rail member protrudes to a position ahead of the chain block mounting portion closest to the rear of the portal lifting device.

  Furthermore, in the preparation step, a portal lifting device is disposed on the upper horizontal portion of the existing truss, and a portal lifting device is disposed on the lower horizontal portion of the existing truss. Transport and install all truss segments using heavy equipment.

  In the renewal method of the present invention described above, for example, when each truss segment of a new truss is pulled up sequentially from the bottom along the existing truss, the truss segment to be installed on the upper horizontal side of the existing truss is moved upward. In the process of carrying, the truss segment is moved along the upper surface of the existing truss by lifting using the portal lifting device, and is further moved along the upper surface of the extension rail member. Accordingly, the truss segment is transported to a lower position of the portal lifting device, and at the lower position, the portal lifting device applies a forward lifting force and a backward lifting force to the truss segment. Can act simultaneously.

  Therefore, when the truss segment is detached from the extension rail member, the portal lifting device balances the forward suspension force and the reverse suspension force to control the posture of the truss segment, Can be kept in a stable posture.

  According to the renewal method of the passenger conveyor according to the present invention, the truss segment to be installed on the upper floor horizontal portion of the existing truss is changed from the inclined portion of the existing truss to the upper horizontal portion, or the inclined portion of the existing truss or the lower floor. The truss segment to be installed on the side horizontal portion can be stably transferred from the upper floor side horizontal portion of the existing truss to the inclined portion.

FIG. 1 is a perspective view showing a first step in the renewal method of the present invention. FIG. 2 is a perspective view showing a second step in the renewal method. FIG. 3 is a perspective view showing a third step in the renewal method. FIG. 4 is a perspective view showing a fourth step in the renewal method. FIG. 5 is a perspective view showing a fifth step in the renewal method. FIG. 6 is a perspective view showing the carrier of the present invention. FIG. 7 is a side view of the carrier. FIG. 8 is a front view of the carrier. FIG. 9 is a diagram for explaining adjustment by the transport tool. FIG. 10 is a series of side views showing a first process in which truss segments are sequentially conveyed along existing trusses in the renewal method of the present invention. FIG. 11 is a series of side views showing a second process in which truss segments are sequentially conveyed along existing trusses in the renewal method. FIG. 12 is a series of side views showing a third process in which truss segments are sequentially conveyed along existing trusses in the renewal method. FIG. 13 is a series of side views showing a fourth process in which truss segments are sequentially conveyed along existing trusses in the renewal method. FIG. 14 is a series of side views showing a fifth process in which truss segments are sequentially conveyed along existing trusses in the renewal method. FIG. 15 is a series of side views showing a sixth process in which truss segments are sequentially conveyed along existing trusses in the renewal method. FIG. 16 is a series of side views showing a seventh process in which truss segments are sequentially conveyed along existing trusses in the renewal method. FIG. 17 is a perspective view showing a state in which the stage member is installed on the lower horizontal portion of the existing truss. FIG. 18 is a side view showing the first half of the process in which the truss segment moves from the stage member to the existing truss. FIG. 19 is a side view showing the latter half of the process in which the truss segment moves from the stage member to the existing truss. FIG. 20 is a side view showing a state where the extension rail member is attached to the existing truss. FIG. 21 is a side view showing a first state of a process in which the upper floor horizontal truss segment moves from the extension rail member to the upper floor horizontal portion of the existing truss. FIG. 22 is a side view showing a second state of the process in which the upper floor side horizontal truss segment transitions from the extension rail member to the upper floor side horizontal portion of the existing truss. FIG. 23 is a side view showing a third state of the process in which the upper floor side horizontal truss segment moves from the extended rail member to the upper floor side horizontal portion of the existing truss. FIG. 24 is a side view showing an existing truss. FIG. 25 is a side view showing a plurality of truss segments constituting the newly installed truss.

  Hereinafter, the embodiment in which the present invention is applied to an escalator renewal method will be described in detail with reference to the drawings. In the following description, the direction from the lower floor to the upper floor along the longitudinal direction of the truss is referred to as “front”, and the opposite direction is referred to as “rear”.

The escalator renewal method according to an embodiment of the present invention is to install a new truss in the internal space of the existing truss without removing the existing truss. First, in the first step, FIG. 1 and FIG. As shown, parts and devices (driving device, step, handrail drive mechanism, control device, etc.) other than the existing truss (1) are removed from the escalator, leaving only the existing truss (1).
The existing truss (1) is composed of an upper floor horizontal part (11), an inclined part (12) and a lower floor side horizontal part (13), and the upper floor side horizontal part (11) to the inclined part (12). And an upper surface (1a) extending to the lower horizontal portion (13).

  In addition, as shown in FIG. 25, the new truss (3) is arranged in the longitudinal direction in the upper floor side horizontal truss segment (31), the upper floor side bent truss segment (32), and a plurality of intermediate truss segments (33) ( 33), the lower floor side truss segment (34), and the lower floor side horizontal truss segment (35).

The truss segments (31) to (35) include a plurality of components and devices (drive device, drive wheel, guide rail, etc.) that can be mounted in advance among a plurality of components and devices that constitute the escalator. It is installed.
FIG. 25 shows one example of division of the new truss (3), and an appropriate division form is adopted according to the total length of the new truss (3).
In the following description, the truss segments (31) to (35) constituting the new truss (3) will be collectively referred to as a truss segment (30) as appropriate.

  Next, in the second step, as shown in FIG. 2, the gate-type lifting device (2a) is installed on the lower horizontal part (13) of the existing truss (1) and the upper floor side of the existing truss (1). A portal lifting device (2b) is installed on the horizontal part (11).

Subsequently, in the third step, as shown in FIG. 3, a chain block (20) provided in the lower-floor side gate-type lifting device (2a) and the upper-floor side gate-type lifting device (2b) is used. The truss segment (30) is pulled up along the upper surface of the existing truss (1).
Here, the truss segment (30) is provided with transport tools (4) at four locations, front, rear, left and right, respectively, and the four transport tools (4) extend over the entire length of the existing truss (1). The truss segment (30) is conveyed by being disposed on the existing upper surface and moving along the upper surface.

  As shown in FIG. 6, the carrier (4) slides along the flat base member (41) to be fastened to the upper surface of the truss segment (30) and the upper surface (1a) of the existing truss (1). It includes a possible sled member (43) and a telescopic mechanism (42) interposed between the base member (41) and the sled member (43).

As shown in FIG. 8, an attachment surface (41a) that can contact the upper surface of the truss segment (30) is formed on the back surface of the base member (41).
Further, as shown in FIGS. 7 and 8, the sled member (43) is fixed to the lower end portion of the telescopic mechanism (42) via an angle member (46).

  The sled member (43) has three sliding surfaces (43a), (43b) and (43b) shown in FIG. 7 facing the upper surface of the existing truss (1), and is arranged in front of and behind the central main sliding surface (43a). Two auxiliary sliding surfaces (43b) and (43b) are formed in the two, and both auxiliary sliding surfaces (43b) and (43b) are inclined with a certain receding angle with respect to the main sliding surface (43a).

  In the process in which the transport tool (4) moves in the flat area on the upper surface of the existing truss (1), the main sliding surface (43a) of the sled member (43) is in sliding contact with the upper surface of the existing truss (1). In the process of (4) overcoming the convex portion on the upper surface of the existing truss (1), first, the auxiliary sliding surface (43b) in front of the sled member (43) is brought into sliding contact with the convex portion of the existing truss (1). The main sliding surface (43a) comes into sliding contact with the convex portion of the existing truss (1) and then climbs over the convex portion. Finally, the rear auxiliary sliding surface (43b) is attached to the existing truss (1). The slidable contact with the convex part will be overcome.

As shown in FIGS. 7 and 8, the telescopic mechanism (42) includes an outer cylinder (421) connected to the back surface of the base member (41) and an inner cylinder (422) connected to the upper surface of the angle member (46). The outer cylinder (421) and the inner cylinder (422) are slidably fitted to each other along the cylinder axis direction.
The outer cylinder (421) has a long hole (48) that is long in the cylinder axis direction, while the inner cylinder (422) is screwed with a bolt (47), and the head of the bolt (47) is long. The inner cylinder (422) slides with respect to the outer cylinder (421) by being fitted into the hole (48), and the inner cylinder (422) is prevented from falling off.

The first adjustment bolt (44) is screwed into the base member (41), and the front end surface of the first adjustment bolt (44) is in contact with the end surface of the inner cylinder (422).
Accordingly, by screwing the first adjustment bolt (44) into the base member (41), the tip end surface of the first adjustment bolt (44) presses the end surface of the inner cylinder (422), thereby the outer cylinder ( 421) and the inner cylinder (422) move relative to each other in the separating direction, the telescopic mechanism (42) expands, and its length A increases.

  Conversely, by unscrewing the first adjustment bolt (44), the outer cylinder (421) and the inner cylinder (422) can move relative to each other in the approaching direction, and the extension mechanism (42 ) Contracts and its length A decreases.

Also, the second adjustment bolt (45) is screwed into the base member (41), and the nuts (49) and (49) are screwed onto the tip of the second adjustment bolt (45) passing through the base member (41). doing.
The second adjusting bolt (45) passes through the truss segment (30) with the base member (41) installed on the upper surface of the truss segment (30) as shown in FIG. The base member (41) can be fixed to the truss segment (30) by tightening the nuts (49) and (49).

With the base members (41) of the four transport tools (4) fastened and fixed to the front, rear, left and right of the truss segment (30), the sled members (43) of the four transport tools (4) are attached to the existing truss (1). When sliding along the upper surface, the length A of the telescopic mechanism (42) shown in FIG. 9 (a) is changed by operating the first adjusting bolt (44), so that the upper surface of the existing truss (1) ( Adjust the distance B between 1a) and the upper surface of the truss segment (30).
Accordingly, the truss segment (30) can be transported in the internal space of the existing truss (1) without causing the truss segment (30) to interfere with the existing truss (1).

  After the truss segment (30) is transported to a predetermined position along the upper surface (1a) of the existing truss (1), the fastening of the truss segment (30) to the base member (41) is loosened, and FIG. 9 (b) The truss segment (30) is moved up and down in the internal space of the existing truss (1) by operating the second adjusting bolt (45) shown in the figure to increase or decrease the screwing amount to the base member (41). ) To adjust the distance B 'between the upper surface (1a) and the upper surface of the truss segment (30). At this time, it is possible to adjust the distance B ′ between the upper surface (1a) of the existing truss (1) and the upper surface of the truss segment (30) by operating the first adjusting bolt (44).

Thereby, the truss segment (30) can be set at a predetermined height position in the internal space of the existing truss (1).
As a result, it is possible to connect the truss segment (30) with the previously installed truss segment (30).

  As described above, four transport tools (4) are attached to the truss segment (30) to be transported, and each of the truss segments is moved while moving these four transport tools (4) along the upper surface of the existing truss (1). By transporting (30) and connecting the front and rear truss segments (30) and (30) to each other, a new truss (3) is completed in the internal space of the existing truss (1) as shown in FIG.

  Finally, in the fourth step, after removing the lower floor side gate type lifting device (2a) and the upper floor side gate type lifting device (2b) from the existing truss (1) as shown in FIG. On the other hand, escalator renewal is completed by attaching necessary parts and equipment (steps, handrails, control equipment, etc.).

  10 to 16 show that a plurality of truss segments (30) are sequentially placed on the upper surface of the existing truss (1) by using the lower-floor side gate-type lifting device (2a) and the upper-floor side gate-type lifting device (2b). A series of transportation and installation operations are shown until the new truss (3) is completed.

  10 (a) to 11 (c) show the transport and installation work of the upper floor horizontal truss segment (31), and FIGS. 11 (c) to 12 (c) show the upper floor bent truss. FIGS. 13 (a) to 13 (d) show the transport and installation work of the first intermediate truss segment (33), and FIGS. 14 (a) to (c). Shows the transport and installation work of the second intermediate truss segment (33), and FIGS. 15 (a) to (d) show the installation work of the lower floor side bent truss segment (34). ) To (c) show the installation work of the lower floor side horizontal truss segment (35).

  Here, when the upper floor horizontal truss segment (31), the upper floor bent truss segment (32), and the intermediate truss segments (33) (33) are transported, as shown in FIG. ), A pair of left and right stage members (5) and (5) extending horizontally inside the lower floor side gate type lifting device (2a) are installed.

  As shown in FIG. 18 (a), the stage member (5) is installed at the same height as the floor (10) for construction, which is laid when the escalator is renewed. It is installed between the truss (1), passes from above the floor (10) over the lower horizontal part (13) of the existing truss (1) to the inclined part (12), and reaches the inclined part (12 ).

The truss segment (30) to be transported is placed on the stage member (5) on the four carriages (50) in the front, rear, left, and right, and the forward transport tool (4) is an inclined portion of the existing truss (1). The stage member (5) is moved until it contacts the upper surface of (12).
At this time, it is not necessary to use the lower floor side gate type lifting device (2a), and it is only necessary to pull the truss segment (30) by the chain block (20) of the upper floor side gate type lifting device.

Next, as shown in FIG. 18 (b), in the state where the chain block (20) of the lower floor side gate type lifting device (2a) is connected to the rear portion of the truss segment (30), the upper floor side gate type lifting device ( The truss segment (30) is pulled by the chain block (20) of 2b), and the front conveying tool (4) is moved along the inclined portion (12) of the existing truss (1).
As a result, the front part of the truss segment (30) is lifted from the stage member (5), and the front carriage (50) is removed.

  Then, as shown in FIG. 19 (a), the truss segment (30) is further lifted by the chain block (20) of the upper floor side gate type lifting device (2b), and the rear carriage (50) is attached to the stage member (5). When the terminal portion is reached, the truss segment (30) is lowered from the rear carriage (50) by using the chain block (20) of the lower gate type lifting device (2a) as shown in FIG. 19 (b). At the same time, the rear transfer tool (4) is arranged on the upper surface of the inclined portion (12) of the existing truss (1). Then, the rear cart (50) is removed.

As a result, the front and rear transport tools (4) are arranged on the upper surface of the inclined portion (12) of the existing truss (1), and the truss segment (30) is placed on the existing truss (1) by these transport tools (4). It will be supported on the inclined part (12).
In this way, as shown in FIGS. 10 (a) to 14 (c), the upper floor side horizontal truss segment (31), the upper floor side bent truss segment (32), and the intermediate truss segment (33) (33). Are transported one after another and installed in the internal space of the existing truss (1).

  Thereafter, the stage members (5) and (5) are removed, and as shown in FIGS. 15 (a) to 16 (c), the lower floor side gate type lifting device (2a) and the upper floor side gate type lifting device (2b) ), The lower floor side truss segment (34) and the lower floor side horizontal truss segment (35) are installed in the internal space of the existing truss (1).

  Also, as shown in FIGS. 10 (a) to 11 (b), when transporting the upper floor side horizontal truss segment (31), as shown in FIG. A pair of left and right extension rail members (6) and (6) are attached to extend the upper surfaces (1a) and (1a) of the inclined portion (12) of (1) obliquely upward with the same inclination.

The extension rail member (6) is supported on the upper horizontal part (11) of the existing truss (1) with the base end part connected to the inclined part (12) of the existing truss (1). Supported by a piece (60).
Here, the upper floor side gate type lifting device (2b) is provided with four chain block mounting portions (201), (202), (203), (204) at intervals in the front-rear direction, and an extension rail member ( The tip of 6) protrudes forward by a predetermined distance S from the rearmost chain block mounting portion (204).

  As shown in FIG. 10 (d), after the upper floor side horizontal truss segment (31) is moved along the upper surface of the existing truss (1) using the upper floor side gate type lifting device (2b), As shown, the upper floor side horizontal truss segment (31) is further moved along the upper surface (6a) of the extension rail member (6).

Here, the chain blocks (20a), (20b), (20c), and (20d) are respectively attached to the four chain block mounting portions (201), (202), (203), and (204) of the upper floor side gate type lifting device (2b). It is attached.
A wire (205) is hung in a V-shape on the foremost chain block (20a) and the third chain block (20c) from the front, and the wire (205) is connected to the upper floor horizontal truss segment. It is connected to the front end of (31).

  By lifting the upper floor side gate type lifting device (2b) with the chain blocks (20a) (20c), the upper floor side horizontal truss segment (31) has four transport tools (4) as a pair of left and right extension rail members (6 ) Is slid, and is smoothly conveyed along the upper surface (6a).

  In this way, as shown in FIG. 21, when the forward conveying tool (4) reaches the terminal end of the extension rail member (6), the front end of the upper floor horizontal truss segment (31) becomes the upper floor gate type. It will enter the lower position of the lifting device (2b).

  Thereafter, as shown in FIG. 22, the upper floor side horizontal truss segment (31) is further lifted by the chain blocks (20a) and (20c), and the rear carrier (4) is left on the extension rail member (6). The carrier (4) is detached from the extension rail member (6). As a result, most of the upper floor side horizontal truss segment (31) moves to a position below the upper floor side gate-type lifting device (2b).

In this state, as shown in FIG. 23, the wire (206) of the rearmost chain block (20d) of the upper floor side gate type lifting device (2b) is connected to the rear end of the upper floor side horizontal truss segment (31). Then, the upper floor side horizontal truss segment (31) is lifted by the chain block (20d), and the rear transportation tool (4) is detached from the extension rail member (6).
Then, the upper floor side horizontal truss segment (31) is rotated to the horizontal posture and held in this state.

  At this time, the wire (206) of the chain block (20d) extends from the chain block mounting portion (204) to the upper floor side horizontal truss segment (31) toward the front, so the upper floor side horizontal truss It is possible to apply a lifting force in the backward direction to the segment (31), thereby balancing the lifting force and the lifting force in the forward direction by the wire (205) of the chain block (20a) (20c). I can do it.

  Therefore, when the upper floor horizontal truss segment (31) is detached from the extension rail member (6), the length of the wire (205) of the chain block (20a) (20c) and the wire (206) of the chain block (20d) By adjusting the position of the upper floor side horizontal truss segment (31) gradually from the inclined position to the horizontal position, the upper floor side horizontal truss segment (31) is moved to the inclined portion (12) of the existing truss (1). ) To the upper position of the upper floor side horizontal portion (11).

Thereafter, the extension rail member (6) is removed from the existing truss (1), and in this state, the upper floor side truss segment (31) is lowered in a horizontal posture using the upper floor side gate type lifting device (2b). Installed in the upper horizontal part (11) on the upper floor of the existing truss (1).
If the carrier (4) does not interfere with the extension rail member (6) during the process of lowering the upper floor horizontal truss segment (31), the extension rail member (6) can be removed by removing the upper floor horizontal truss. It can also be carried out after the segment (31) is installed on the existing truss (1).

  When installing each truss segment (30) that constitutes the new truss (3), after adjusting the height of the truss segment (30), the truss segment (30) is connected to the front truss segment (30) that has already been installed. The truss segment (30) is connected to the existing truss (1) as necessary.

Each time the truss segment (30) is lifted and installed, or after all the truss segment (30) has been lifted and transported, the four transport tools attached to the truss segment (30) ( 4) Remove.
At this time, if the telescopic mechanism (42) of the transport tool (4) is contracted, the transport tool (4) can be easily removed.

In this way, the new truss (3) is completed in the internal space of the existing truss (1) by connecting all the truss segments (30) to each other.
The floor surface (10) shown in FIG. 18 (a) is removed when the escalator renewal work is completed, and a new floor surface is formed at substantially the same height as the floor surface (10). .

According to the renewal method of the escalator, four transport tools (4) are attached to the truss segment (30), and the sled member (43) of the transport tool (4) is slid along the upper surface of the existing truss (1). By doing so, the truss segment (30) can be moved, so that the truss segment (30) can be transported easily.
Further, in the transport tool (4), since the sled member (43) is provided integrally with the base member (41), even if a large load is applied during transport of the truss segment (30), the transport tool There is almost no risk of (4) being damaged, and maintenance is easy.

  Furthermore, with the transport tool (4) attached to the truss segment (30), the transport tool (4) can be used to transport the truss segment (30) and adjust the height of the truss segment (30) after transport. Therefore, it is not necessary to change the setting from the transfer work to the installation work.

However, the upper floor side horizontal truss segment (31), upper floor side bent truss segment (32), and intermediate truss segments (33) (33) constituting the newly installed truss (3) are used with the stage member (5). Since the floor surface (10) is moved onto the existing truss (1), the lifting work by the lower floor side gate-type lifting device (2a) can be omitted or greatly reduced.
Therefore, the renewal can be completed with fewer work steps than before.

  In addition, each part structure of this invention is not restricted to the said embodiment, A various deformation | transformation is possible within the technical scope as described in a claim. For example, in the above embodiment, the sled member (43) is used as the footwear of the transport tool (4). However, the present invention is not limited to this, and a wheel may be used.

  In the above embodiment, the truss segments (30) of the new truss (3) are pulled up sequentially from the bottom along the existing truss (1), but the truss segments (30) are sequentially pulled from the top. It is also possible to adopt a method of lowering.

In this case, in the process of transporting the truss segment (30) to be installed in the lower horizontal part (13) or the inclined part (12) of the existing truss (1) downward, the upper floor side gate-type lifting device (2b) The truss segment (30) is lifted at a lower position of the upper floor side gate type lifting device (2b) and installed on the extension rail member (6), and then the truss segment (30) is extended to the extension rail. It is moved along the upper surface of the member (6), and further moved downward along the upper surface of the existing truss (1).
In this case as well, the truss segment (30) can be stably transferred from the upper horizontal portion (11) of the existing truss (1) to the inclined portion (12).

  Furthermore, in the above embodiment, after the new truss (3) is completed at the factory, the new truss (3) is divided into a plurality of truss segments (30), and these truss segments (30) are renewed. However, after manufacturing several truss segments (30) that should constitute the new truss (3) separately at the factory, the factory does not assemble these truss segments (30). It is also possible to carry it to the site of renewal construction.

(1) Existing truss
(2a) Lower gate type lifting equipment
(2b) Upper floor side gate type lifting equipment
(20) Chain block
(3) New truss
(30) Truss segment
(4) Carrier
(41) Base member
(42) Telescopic mechanism
(43) Sled member
(44) First adjustment bolt
(45) Second adjustment bolt
(5) Stage member
(50) Bogie
(6) Extension rail member

Claims (7)

Renewal method for passenger conveyors in which a new truss to be installed in the internal space of an existing truss is divided into multiple truss segments in the longitudinal direction, and these truss segments are sequentially installed in the internal space of the existing truss In
A preparatory process of deploying a portal lifting device at least in the horizontal section of the upper floor of the existing truss;
A plurality of transporting tools which are steps for sequentially transporting the plurality of truss segments along the existing truss, and can be disposed on the truss segment to be transported on the upper surface extending in the longitudinal direction of the existing truss. A transporting step of transporting the truss segment while moving the plurality of transporting tools along the upper surface using the portal lifting device,
In the preparatory step, an extension rail member is attached to the existing truss, extending the upper surface of the inclined portion of the existing truss where the transport tool will move obliquely upward with the same inclination,
In the transporting process, a renewal method for a passenger conveyor, wherein the truss segment to which the plurality of transporting tools are attached is moved over the upper surface of the inclined portion of the existing truss and the upper surface of the extension rail member.   In the transporting process, in the process of transporting the truss segment to be installed on the upper floor side horizontal portion of the existing truss upward, the truss segment is moved along the top surface of the inclined portion of the existing truss, and further the top surface of the extension rail member The truss segment is transported to a position below the portal lifting device, and then the truss segment is detached from the extension rail member using the portal lifting device, and the existing truss The renovation method of the passenger conveyor of Claim 1 installed in the upper floor side horizontal part.   In the transporting step, in the process of transporting the truss segment to be installed in the lower horizontal part or the inclined part of the existing truss downward, the truss segment is moved to the portal lifting device using the portal lifting device. The passenger according to claim 1, wherein the truss segment is moved along the upper surface of the extension rail member and further moved along the upper surface of the existing truss after being lifted at a position below the rail and installed on the extension rail member. Renewal method for conveyors.   4. The method according to claim 1, wherein the extension rail member is removed from the existing truss when the truss segment is installed in the upper horizontal portion of the existing truss or after the truss segment is installed in the upper horizontal portion. Renewal method for passenger conveyors.   The forward lifting force and the backward lifting force can be applied to the truss segment using the portal lifting device at a position below the portal lifting device. Item 5. A passenger conveyor renewal method according to any one of Items 4 to 5.   The renewal method for a passenger conveyor according to any one of claims 1 to 5, wherein the extension rail member protrudes to a position ahead of a chain block mounting portion closest to the rear of the portal lifting device.   In the preparatory step, a portal lifting device is provided on the upper horizontal portion of the existing truss, and a portal lifting device is provided on the lower horizontal portion of the existing truss. The renovation method for a passenger conveyor according to any one of claims 1 to 6, wherein all the truss segments are transported and installed.

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