JP7158194B2 - Movable platform fence - Google Patents

Description

The present invention relates to a movable platform fence.

Movable platform fences are installed on the platforms of railway stations, and are devices that open and close movable doors in front of trains when boarding and alighting from trains. To prevent.

A conventional movable platform gate with a sliding door type movable door (sometimes called a sliding door) has a structure with a sliding mechanism for sliding the movable door in the opening and closing direction (for example, , see Patent Document 1).

JP 2012-106591 A

Now, the load supported by the slide mechanism of the movable door is not limited to the weight of the movable door.
For example, there is a load in the direction perpendicular to the surface of the movable door (hereinafter referred to as "lateral direction"), represented by wind pressure, and a load that acts when a passenger leans against it. Therefore, the slide mechanism is required to have the ability to withstand these loads and, in some cases, to slide smoothly while being subjected to wind pressure. As a result, the slide mechanism tends to be large and heavy.

On the other hand, there is always a demand for weight reduction and miniaturization of movable platform fences.
That is, when a movable platform fence is installed on an existing platform, the platform becomes narrower by the amount of installation of the movable platform fence. As a result, the size of the aisle for passengers to pass through becomes narrower, and there may be cases where passage is inconvenient depending on the location on the platform, such as the side of the stairs. Therefore, it is desirable that the depth dimension of the door pocket (the length in the depth direction when viewed from the platform toward the track side) be as small as possible. In addition, the platform may need to be reinforced to support the weight of the movable platform fence, increasing the installation cost.

An object of the present invention is to realize a new structure that supports a load acting on a door while reducing the weight and size of a movable platform fence.

A first invention for solving the above problems is a movable platform fence provided with a door portion and a door pocket portion that slidably supports the door portion, wherein the door pocket portion slides the door portion. a first load supporting portion that allows displacement of the door portion in a lateral direction that intersects the direction and the vertical direction and receives a vertical load including the weight of the door portion; and displacement of the door portion in the lateral direction. and a second load supporting portion that receives the load in the lateral direction by limiting the displacement when the displacement reaches a predetermined amount.

According to the first invention, as a structure for receiving the load acting on the door portion, the first load support portion bears the vertical load including the self weight of the door portion, and the lateral displacement of the door portion reaches a predetermined amount of displacement. and the second load supporting portion that bears the lateral load, which is the load in the lateral direction of the door portion. As a result, it is possible to realize a reduction in weight and size compared to conventional movable platform fences that support a vertical load and a lateral load with a single mechanism. In addition, a new support structure for the door that secures the required load resistance can be realized.

In a second aspect of the invention, the door portion has protrusions on the platform-side side surface and the track-side side surface, and the second load support portion is provided at a position facing the protrusions when the door is fully closed. It is a movable platform fence of the first invention.

A state in which a large lateral load acts on the door portion is when the door portion is in a fully closed state. According to the second aspect of the invention, when the door portion is in the fully closed state, the protrusion provided on the door portion and the second load support portion face each other and are positioned close to each other, and when a lateral load is generated on the door portion. The second load bearing portion is now ready to support. For this reason, it is possible to exhibit a large effect while having a simple structure.

A third invention is the movable platform fence according to the first or second invention, wherein the door pocket part has an elastic support part that elastically supports the first load support part in the lateral direction.

According to the third invention, by appropriately setting the elastic support characteristics of the elastic support portion, it is possible to appropriately suppress the lateral movement of the door portion. In addition, by designing the amount of elastic deformation of the elastic support portion to the amount of lateral displacement of the door portion that the first load support portion can tolerate, the door portion can be appropriately positioned at a position where no support by the second load support portion occurs. can hold.

In a fourth aspect of the present invention, the door portion has an upper frame, and the second load support portion includes a pair of plate-like portions provided to sandwich the upper frame. It is a movable platform fence according to any one of the to third inventions.

According to the fourth invention, the second load support portion can be configured by a pair of plate-like portions provided so as to sandwich the upper frame of the door portion between the platform side and the track side.

In a fifth aspect of the present invention, the door portion has a lower frame, and the second load support portion includes a pair of plate-like portions provided to sandwich the lower frame. It is a movable platform fence according to any one of 1 to 4th inventions.

According to the fifth invention, the second load support portion can be configured by a pair of plate-like portions provided so as to sandwich the lower frame of the door portion between the platform side and the track side.

In a sixth aspect of the invention, the door portion has an upper rail structure portion on an upper edge portion and a lower rail structure portion on a lower edge portion, and the first load support portion is an upper rail structure portion that abuts on the upper rail structure portion. a guide portion, and a lower guide portion abutting on the lower rail structure portion, and receives the vertical load of the door portion such that the door portion is sandwiched between the upper guide portion and the lower guide portion; It is a movable platform fence according to any one of the to fifth inventions.

According to the sixth invention, the upper edge and the lower edge of the door part also serve as a rail structure part for sliding the door part in the opening and closing direction, and the first load support part guides the rail structure part. It becomes the structure which serves as a slide mechanism part. Therefore, a dedicated slide mechanism for sliding the door, which is required in the conventional movable platform fence, is no longer required, and the weight can be reduced accordingly. In addition, since the space for accommodating the guide parts in the door case is not required, the size can be reduced at the same time.

In a seventh aspect of the invention, the door portion has an upper frame, an upper rail structure provided on the upper surface of the upper frame, and a lower rail structure provided on the lower edge,
The first load support portion has an upper guide portion that abuts on the upper rail structure portion and a lower guide portion that abuts on the lower rail structure portion. The second load support portion receives the vertical load of the door portion by sandwiching the upper guide portion, and the second load support portion includes a pair of plate-like portions provided to sandwich the upper frame. The movable platform fence according to any one of the first to third aspects of the invention, wherein the pair of plate-shaped portions are integrally formed.

In an eighth aspect of the invention, the door portion has an upper rail structure portion provided on the upper edge portion, a lower frame, and a lower rail structure portion provided on the lower surface of the lower frame,
The first load support portion has an upper guide portion that abuts on the upper rail structure portion and a lower guide portion that abuts on the lower rail structure portion. The second load support portion receives the vertical load of the door portion by sandwiching the lower guide portion, and the second load support portion includes a pair of plate-like portions provided to sandwich the lower frame. The movable platform fence according to any one of the first to third aspects of the invention, wherein the pair of plate-shaped portions are integrally formed.

In a ninth invention, the door portion includes an upper frame, a lower frame, an upper rail structure portion provided on the upper surface of the upper frame, and a lower rail structure portion provided on the lower surface of the lower frame. and the first load supporting portion has an upper guide portion that contacts the upper rail structure portion and a lower guide portion that contacts the lower rail structure portion, and the upper guide portion and the lower guide portion receives the vertical load of the door portion by sandwiching the door portion, and the second load support portion includes a pair of first plate-shaped portions provided to sandwich the upper frame and the lower frame. and a pair of second plate-shaped portions sandwiched therebetween, the upper guide portion and the pair of first plate-shaped portions are integrally formed, and the lower guide portion and the pair of first plate-shaped portions are integrally formed. The movable platform fence according to any one of the first to third inventions, wherein the two plate-shaped parts are integrated.

According to any one of the seventh, eighth, and ninth inventions, the first load-bearing part and the second load-bearing part can be shared with other components, so that the weight of the movable platform fence can be reduced. Further miniaturization can be achieved.

In a tenth aspect of the invention, the upper guide portion has a roller as a contact portion with the upper rail structure portion, and the lower guide portion has a roller as a contact portion with the lower rail structure portion. A movable platform fence according to any one of the sixth to ninth inventions.

According to the tenth aspect, it is possible to reduce slide resistance when the door slides.

Fig. 4 is a front view of the movable platform fence as seen from the platform side, showing a fully closed state; Fig. 4 is a front view of the movable platform fence as seen from the platform side, showing a fully open state; FIG. 2 is a front view showing an example of the internal structure of the movable platform fence, with the exterior being omitted from FIG. 1; The top view which abbreviate|omitted the exterior which shows the example of an internal structure of a movable platform fence. FIG. 4(1) shows the fully closed state, and FIG. 4(2) shows the fully open state. Fig. 3 is a side view showing the internal structure of the movable platform fence as seen from the right side of the front, omitting the exterior; The side view of an upper guide part. The figure for demonstrating the support structure of the vertical load containing the dead weight of the door part in a fully closed state. FIG. 3 is a perspective view showing an example of a slide pad; It is a side view of an upper guide part, and shows the example of the state in which the relatively large lateral load which elastically deforms an elastic support part to the door part to the full was applied. The front view which shows the modification of a movable platform fence. The front view which shows the modification of a movable platform fence. FIG. 11 is a side view (part 1) showing a modification of the configuration of the upper guide portion; The side view (the 2) which shows the modification of a structure of an upper guide part. The front view which shows the 4th modification of a movable platform fence. The side view which shows the 4th modification of a movable platform fence.

An embodiment of the movable platform fence 2 to which the present invention is applied will be described below, but it goes without saying that the form to which the present invention can be applied is not limited to the following embodiments.

FIG. 1 is a front view of the movable platform fence 2 as viewed from the platform side, showing a fully closed state.
FIG. 2 is a front view of the movable platform fence 2 as viewed from the platform side, showing a fully open state.
FIG. 3 is a front view showing an example of the internal structure of the movable platform fence 2, which corresponds to FIG. 1 with the exterior removed.
FIG. 4 is a top view showing an example of the internal structure of the movable platform fence 2, omitting the exterior. FIG. 4(1) shows the fully closed state, and FIG. 4(2) shows the fully open state.
FIG. 5 is a side view showing the internal structure of the movable platform fence 2 as seen from the right side of the front, omitting the exterior.

As shown in FIGS. 1 and 2, the movable platform fence 2 of this embodiment includes a pedestal portion 4 fixed to the platform 3, a door pocket portion 30 erected on the pedestal portion 4, and left and right sides of the door pocket portion 30. and a door portion 10 slidably supported by each. In this embodiment, the left door portion 10 and the right door portion 10 are bilaterally symmetrical. shall also serve as an explanation of

The door portion 10 has a frame portion 12 and a passage blocking portion 14 .

The frame portion 12 is an outer frame of the door portion 10, and has an upper frame 12u, a lower frame 12d, a door tip portion frame 12h, and a door bottom portion frame 12t.

The upper frame 12u, the lower frame 12d, the door tip frame 12h, and the door tail frame 12t are realized by hollow members made of an extruded material such as light metal (for example, aluminum). In addition, the dividing positions of the upper frame 12u, the lower frame 12d, the front frame 12h, and the door bottom frame 12t are not limited to the illustrated example, and can be set as appropriate.

The upper frame 12u and the lower frame 12d are formed so that the cross-sectional outline at the second position P2 on the door bottom side is larger than the cross-sectional outline at the first position P1 on the front end side. Specifically, the section modulus and the moment of inertia at the second position P2 are designed to be larger than those at the first position P1. As a result, the weight of the entire door portion 10 is reduced as compared with the case where the upper frame 12u and the lower frame 12d have the same cross-sectional outline at the first position P1 and the second position P2.

As shown in FIG. 3, the ends of the upper frame 12u and the lower frame 12d on the side of the door trailing edge (ends on the side of the door pocket) protrude further in the direction of the door trailing than the door trailing frame 12t along the sliding direction. In the closed state, the projecting portion is supported by an upper guide portion 60u and a lower guide portion 60d, which will be described later.
Correspondingly, the door portion 10 has slide pads 17 as protrusions on the platform-side and track-side sides of the projecting portion. Details of the slide pad 17 will be described later.

As shown in FIGS. 3 and 5, the door portion 10 has an upper rail structure portion 16u on the upper surface of the upper frame 12u, which is the upper edge portion, and a lower rail structure portion 16u on the lower surface of the lower frame 12d, which is the lower edge portion. It has a structural portion 16d.

The upper rail structure portion 16u is formed integrally with the upper frame 12u and has an upwardly convex shape. The lower rail structure portion 16d is formed integrally with the lower frame 12d and has a downwardly convex shape.

As shown in FIG. 3 , the passage shielding portion 14 is configured by arranging a plurality of lateral rod-shaped bodies with a space therebetween in the vertical direction. In this embodiment, the bar is a light metal hollow body. However, the length in the slide direction of the traffic shielding portion 14 is shorter than the upper frame 12u and the lower frame 12d. Further, the passage blocking portion 14 is provided on the door tip side of the door portion 10 . Accordingly, the door trailing edge side of the door portion 10 is provided with a portion having the upper frame 12u and the lower frame 12d but not having the passage shielding portion 14. As shown in FIG.

The door pocket portion 30 supports the door portion 10 in a slidable manner.
As shown in FIGS. 1 and 3, the door pocket portion 30 includes a strength member 31, an upper exterior 33u, a side exterior 33s, a drive mechanism portion 40, a control portion 50, an upper guide portion 60u, and a lower guide portion. 60d.

The strength member 31 is assembled by connecting a plurality of rod-shaped hollow members by welding or bolting. A lower end portion of the strength member 31 is connected and fixed to the base portion 4 . To facilitate understanding of the positional relationship, the strength members 31 are shown shaded.

The strength member 31 has a rectangular overall shape when viewed from the front. That is, it has a rectangular outer frame portion and a connecting portion provided therein. When viewed from above, the strength member 31 has a linear shape along the sliding direction of the door portion 10, and the left and right door portions 10 are supported separately on the platform side and the track side of the strength member 31, respectively. (See Figure 4).

The upper portion of the strength member 31 is covered with an upper exterior 33u. A side exterior 33s is attached to the side outer periphery of the strength member 31 on the platform side, the track side, or the like. As a result, the door pocket portion 30 has a box-like outer shape (see FIGS. 1 and 2).

Since the strength required for the door case 30 is basically secured by the strength member 31, the main function of the upper exterior 33u and the side exterior 33s is not to secure strength but to prevent access from the outside. there is Therefore, the upper exterior 33u and the side exterior 33s can be realized by thin and light panel materials such as light metals and synthetic resins, which contributes to the reduction of the overall weight of the movable platform fence 2.

As shown in FIG. 3, the drive mechanism section 40 is prepared for each door section 10, and driven and controlled by the control section 50 to move the corresponding door section 10 in the respective sliding directions. For example, the drive mechanism unit 40 includes an electric motor 41, a drive pulley 42 attached to the output shaft of the electric motor 41, a driven pulley 43, and a toothed belt 44 stretched between the drive pulley 42 and the driven pulley 43. , and a connecting fitting 45 that connects the toothed belt 44 and the door portion 10 . Of course, the configuration of the drive mechanism section 40 is not limited to this, and can be set as appropriate.

The control unit 50 electrically controls the drive mechanism unit 40 according to an open/close signal from the outside. For example, it is realized by a computer or the like composed of a CPU, ROM, RAM, etc., and has a receiver that receives an open/close signal, a motor driver circuit that generates a drive signal for the electric motor of the drive mechanism section 40, and the like.

On the door trailing edge side of the door portion 10, there is provided an "empty space" which is an empty portion where the upper frame 12u and the lower frame 12d are present but the traffic shielding portion 14 is not provided. Then, as shown in FIG. 4, the control unit 50 is arranged at a position in the door case 30 where the empty space is located in the fully open state so as to fit in the empty space. Therefore, focusing on the width (the length in the sliding direction) of the door pocket portion 30 and the depth dimension of the door pocket portion 30 (the length in the depth direction when viewed from the platform toward the track side), in the present embodiment, the door pocket portion 30 can be made lighter and smaller. That is, when a space for accommodating the control unit 50 is separately prepared in the door pocket next to the space for accommodating the door, it is necessary to secure a large space in the door pocket. However, in the present embodiment, the controller 50 can be accommodated in the "empty space" provided on the door bottom side of the door portion 10, so that the weight and size of the door pocket portion 30 can be reduced. .

The movable platform fence 2 of this embodiment has a characteristic support structure for the door portion 10 .
That is, as shown in FIGS. 3 and 5, the upper guide portion 60u and the lower guide portion 60d are in contact with the upper rail structure portion 16u and the lower rail structure portion 16d, respectively, and hold the door portion 10 therebetween. 10 is slidably supported. In this embodiment, a total of four guide portions are prepared for one door portion 10, including two upper guide portions 60u and two lower guide portions 60d.

As shown in FIG. 5, the upper guide portion 60u has a concave shape corresponding to the convex shape of the upper rail structure portion 16u at the contact portion with the upper rail structure portion 16u. Specifically, the upper guide portion 60u has a roller 63 with a V-shaped grooved roller surface (hereinafter referred to as “V-shaped groove type” as appropriate) as a contact portion with the upper rail structure portion 16u.

The lower guide portion 60d has a concave shape corresponding to the convex shape of the lower rail structure portion 16d at a contact portion with the lower rail structure portion 16d. Specifically, the lower guide portion 60d has a V-shaped groove type roller 63 as a contact portion with the lower rail structure portion 16d.

By the concave-convex fitting due to the mutual contact portions of the upper rail structure portion 16u and the upper guide portion 60u and the concave-convex fitting due to the mutual contact portions of the lower rail structure portion 16d and the lower guide portion 60d, the distance from the platform side to the track side is reduced. The movement of the door portion 10 in the direction toward the track side and the movement of the door portion 10 in the direction from the track side toward the platform side are suppressed.

FIG. 6 is a side view of the upper guide portion 60u. Since the lower guide portion 60d can be realized by vertically inverting the upper guide portion 60u, description of the lower guide portion 60d will be omitted hereafter.

The upper guide portion 60 u has a guide frame 61 and rollers 63 .

As shown in FIG. 6, the guide frame 61 has a U-shape opening downward when viewed from the side. Specifically, a bridge portion 61b extending from the platform side to the track side above the end portion (in this case, the upper end portion) of the door portion 10, and the upper portion of the door portion 10 from the platform side end portion of the bridge portion 61b. It has a platform-side arm portion 61p that hangs outward, and a track-side arm portion 61k that hangs outward from the top of the door portion 10 from the track-side end of the bridge portion 61b.

Therefore, the platform-side arm portion 61p and the track-side arm portion 61k of the upper guide portion 60u form a pair of plate-like portions provided so as to sandwich the upper frame 12u of the door portion 10 therebetween. As described above, the lower guide portion 60d is realized by vertically inverting the upper guide portion 60u. It becomes a pair of plate-like portions provided so as to sandwich 12d.

The guide frame 61 may be formed integrally with the bridge portion 61b, the platform side arm portion 61p, and the track side arm portion 61k, or may be divided into three pieces.

The bridge portion 61b has a through hole 62 penetrating between the side surface on the platform side and the side surface on the track side. Fixed.

A V-shaped groove type roller 63 is pivotally supported on the upper portion of the guide frame 61 . Specifically, the rollers 63 are pivotally supported by roller shafts 64 penetrating between the side surface on the platform side and the side surface on the track side. Elastic support portions 65 are sandwiched between the roller 63 and the inner surface of the platform-side arm portion 61p and between the roller 63 and the inner surface of the track-side arm portion 61k.

The elastic support portion 65 is realized by an annular body or a coil spring, through which the roller shaft 64 made of synthetic resin such as elastic rubber can be inserted. The elastic support portion 65 supports the roller 63 at an intermediate position of the roller shaft 64 .

The door portion 10 is supported by being vertically sandwiched between the upper guide portion 60u and the lower guide portion 60d. The upper rail structure portion 16u and the upper guide portion 60u are engaged with each other when viewed in the sliding direction of the door portion 10 (opening/closing direction). Further, the lower rail structure portion 16d and the lower guide portion 60d are engaged with each other when viewed in the sliding direction (opening/closing direction) of the door portion 10. As shown in FIG. Therefore, even if the door portion 10 tries to move in a direction intersecting the sliding direction of the door portion 10 (horizontal direction for the door portion 10; horizontal direction in FIG. 6; direction perpendicular to the surface of the door portion 10), the movement The force applied is absorbed by the deformation of the elastic support portion 65 via the roller 63 and suppressed. Due to this concave-convex fitting, the door portion 10 can be smoothly opened and closed.

FIG. 7 is a diagram for explaining a support structure for a vertical load including the weight of the door portion 10 in the fully closed state. Although FIG. 7 shows the load acting only on the left door portion 10, the same applies to the right door portion 10 as well.

The upper guide portion 60u and the lower guide portion 60d (more specifically, the roller 63 of the upper guide portion 60u and the roller 63 of the lower guide portion 60d) of the door pocket portion 30 receive a vertical load Wd including the weight of the door portion 10 itself. It functions as the first load support portion 71 . Black arrows (Fd1, Fd2, Fd3) indicate examples of loads that the first load supporting portion 71 receives. In addition, the first load support portion 71 includes the elastic support portion 65 in the upper guide portion 60u and the lower guide portion 60d, so that the horizontal direction intersecting the sliding direction and the vertical direction of the door portion 10 (the sliding direction of the door portion 10 In terms of the front-rear direction, it means the lateral direction; the front-rear direction of the movable platform fence 2 when the movable platform fence 2 is used as a reference).

Furthermore, the upper guide portion 60 u and the lower guide portion 60 d function as the second load support portion 72 . The second load support portion 72 allows displacement of the door portion 10 by deformation of the elastic support portion 65 up to a certain level of lateral load (direction perpendicular to the door surface of the door portion 10: load in the lateral direction). , when a strong lateral load exceeding the predetermined level acts and reaches a predetermined amount of displacement, the door portion 10 receives the lateral load and is restricted from laterally displacing more than the predetermined amount of displacement. The "strong lateral load exceeding a certain level" referred to here can be caused particularly by wind pressure on the door section 10, a passenger leaning against the door section 10, or the like.

In order to function as the second load support part 72, as shown in FIGS. It has pads 17 .

FIG. 8 is a perspective view showing an example of the slide pad 17. FIG.
The slide pad 17 is a convex member made of synthetic resin (for example, Teflon (registered trademark) resin) attached to the side surface of the door portion 10 . The slide pad 17 is provided on the door bottom side of the upper frame 12u and the lower frame 12d at a position facing the platform side arm portion 61p or the track side arm portion 61k when fully closed. The slide pad 17 has an inclined surface 18 inclined in the sliding direction of the door portion 10 .

When the door portion 10 slides and the upper frame 12u and the lower frame 12d move between the platform side arm portion 61p and the track side arm portion 61k, the upper frame 12u or the lower frame 12d and the platform side arm portion 61p move. Alternatively, even if the track-side arm portion 61k comes into contact with the slide pad 17, the inclined surface 18 cushions the collision and supports the door portion 10 so that it can move smoothly.

When the door portion 10 is fully closed, no lateral load acts on the door portion 10, or even if a lateral load acts, a load within a range absorbed by the elastic deformation of the elastic support portion 65 acts. In this case, as shown in FIG. 6, a gap D is formed between the slide pad 17 and the lower portion of the guide frame 61. As shown in FIG. The gap D corresponds to the amount of lateral displacement of the door portion 10 that the first load support portion 71 allows.

The slide pad 17 acts as a part that transmits a strong lateral load to the guide frame 61 when a strong lateral load exceeding a certain level acts on the door part 10 as a function of the second load support part 72 .

Specifically, as shown in FIG. 9, when a strong lateral load exceeding a certain level is applied to the door portion 10, the elastic support portion 65 is greatly elastically deformed, and the gap D disappears, and the slide pad 17 and the guide are separated from each other. It is set so as to abut against the frame 61 . Therefore, the upper guide portion 60u and the lower guide portion 60d limit the lateral displacement of the door portion 10 beyond a predetermined amount of displacement allowed by the deformation of the elastic support portion 65, so that the lateral load Ws in the lateral direction is reduced. It receives a lateral load when acting on the door portion 10 (Ws→Fs1). Then, the lateral load is transmitted to the strength member 31 of the door pocket portion 30 via the guide frame 61 (Fs1→Fs2).

As described above, according to the present embodiment, the movable platform fence can be made lighter and smaller than before. In addition, there is no need to separately provide a guide part or the like for supporting and sliding the door part 10, and the door part 10 also serves as a part (specifically, a part corresponding to a rail), which reduces the number of parts. reduction and manufacturing man-hours can be reduced. As a result, it leads to a reduction in manufacturing costs. In addition, handling during installation and maintenance of the movable platform fence 2 is facilitated.

Further, the strength of the door pocket 30 is not ensured by forming a box with both the internal frame and the exterior panel as in the conventional art, but the strength is ensured by the strength member 31 as a rectangular frame. This makes it possible to use lightweight materials for the exterior panels, contributing to weight and size reductions (see Figs. 3 and 5). Moreover, since the upper rail structure portion 16u has an upwardly convex cross-sectional shape, it is difficult for rainwater and dust to accumulate, and is excellent in terms of maintainability and weather resistance, as compared with the case of having a downwardly concave cross-sectional shape.

In addition, by designing the controller 50 so that it can be accommodated in an empty space on the door trailing side of the door 10 even when it is fully open, the weight and size of the door pocket 30 can be reduced (Fig. 4).

Moreover, as shown in FIGS. 7 and 9, the vertical load and lateral load acting on the door 10 are properly supported, so there is no need to worry about insufficient strength at the expense of weight reduction and miniaturization. .

[Modification]
Although the embodiments to which the present invention is applied have been described above, the configuration for realizing the present invention is not limited to the above-described embodiments, and modifications, additions, and omissions can be made as appropriate without departing from the gist of the invention. be.

[Modification 1]
For example, the movable platform fence 2 of the above-described embodiment has a configuration in which two door portions 10 are provided in one door pocket portion 30, but a configuration in which one door portion 10 is provided is also possible.

[Modification 2]
Further, in the above-described embodiment, the traffic shielding portion 14 is realized by a plurality of rod-shaped bodies arranged sideways along the sliding direction, and is configured to play a part of the weight reduction, but is not limited to this.
For example, like the traffic shielding part 14B of the movable platform fence 2B shown in FIG. It may be realized by providing a hole (white circle portion in FIG. 10). Furthermore, it may be realized by a net (mesh member). Further, for example, it may be realized as a fence part that allows ventilation, like a passage blocking part 14C of a movable platform fence 2C shown in FIG. 11 . In FIG. 11, the fence portion is configured by vertical lattices, but the fence portion may be configured by combining vertical lattices and horizontal lattices, or may be configured by diagonal lattices.

[Modification 3]
12, the upper rail structure portion 16u and the rollers 63 of the upper guide portion 60u have a concave-convex relationship in which the upper rail structure portion 16u and the rollers 63 of the upper guide portion 60u are engaged with each other. The cross section of the outer periphery may have a convex shape, and may have a concavo-convex fitting shape opposite to that of the above-described embodiment. In addition, the uneven shape is not limited to the V-shaped groove type, and as shown in FIG. The upper rail structure portion 16u may be configured with a flat bottom surface, and the convex portion of the upper rail structure portion 16u may be configured to be sandwiched between the pair of flanges of the roller 63. As shown in FIG.

[Modification 4]
Also, the configurations of the first load supporting portion 71 and the second load supporting portion 72 are not limited to those of the above embodiment. In the above-described embodiment, the first load support portion 71 and the second load support portion 72 are realized by sharing a component between the two load support portions such as the upper guide portion 60u and the lower guide portion 60d. You may prepare.

For example, FIG. 14 is a front view showing a configuration example of a movable platform fence 2D that separately includes a first load bearing portion 71B and a second load bearing portion 72B, and omits illustration of the exterior. FIG. 15 is a side view showing a configuration example of a movable platform fence 2D separately provided with a first load bearing portion 71B and a second load bearing portion 72B.

In this configuration, the upper portion of the door portion 10 is slidably supported by the upper slide mechanism portion 80 . The first load support portion 71B in this configuration also serves as the upper slide mechanism portion 80. As shown in FIG. Specifically, the first load supporting portion 71B moves the upper guide rail 81 fixed to the strength member 31 along the sliding direction, the upper slider 82, and the upper guide rail 81 and the upper slider 82 in the lateral direction (door direction). 10, and elastic support portions 85 inserted through the connecting bolts 84 and provided on the platform side and the track side of the door portion 10, respectively. (e.g., spring coil).

The lower portion of the door portion 10 is slidably supported by a lower slide mechanism portion 90 . The lower slide mechanism part 90 has a lower guide rail 91 fixed to the strength member 31 along the sliding direction, a lower slider 92, and a slider connecting fitting 93 that connects the lower slider 92 to the lower part of the door part 10. .

The second load support portion 72</b>B in this configuration is realized by the guide frame 61 installed above the door portion 10 and the slide pad 17 .

14 and 15, the first load support portion 71B and the second load support portion 72B are provided only above the door portion 10. It can be provided instead of or together with the upper part. In that case, the lower slide mechanism section 90 will have the same configuration as the upper slide mechanism section 80 .

2, 2B, 2C, 2D... Movable platform fence 3... Platform 4... Pedestal part 10... Door part 12... Frame part 12d... Lower frame 12h... Door tip frame 12t... Door tail part frame 12u... Upper frame 14, 14B , 14C... Traffic shielding part 16d... Lower rail structure part 16u... Upper rail structure part 17... Slide pad 18... Inclined surface 30... Door case part 31... Strength member 33s... Side exterior 33u... Upper exterior 40... Drive mechanism part 41... Electric Motor 42 Drive pulley 43 Driven pulley 44 Toothed belt 45 Connecting fitting 50 Control part 60d Lower guide part 60u Upper guide part 61 Guide frame 61b Bridge part 61k Track side arm 61p Platform side Arm 63 Roller 64 Roller shaft 65 Elastic support 71, 71B First load support 72, 72B Second load support 80 Upper slide mechanism 81 Upper guide rail 82 Upper slider 84 Connection Bolt 85... Elastic support part D... Gap P1... First position P2... Second position Wd... Vertical load Ws... Lateral load

Claims (5)

A movable platform fence comprising a door portion and a door pocket portion that slidably supports the door portion,
The door portion
an upper frame;
an upper rail structure provided on the upper surface of the upper frame;
a lower frame;
a lower rail structure provided at the lower edge of the lower frame;
has
The door case part
strength members and
an upper guide portion and a lower guide portion that are fixed to the strength member and support the door portion so as to sandwich the door portion from above and below;
Exterior and
has
The upper guide part is
The upper platform-side arm portion located on the platform side of the door portion and the upper track-side arm portion located on the track side of the door portion are connected to the door. an upper guide frame arranged oppositely so as to sandwich the portion from above;
an upper roller contacting the upper rail structure from above and an upper elastic support portion elastically supporting the upper roller;
including
The lower guide part is
a lower roller contacting the lower rail structure from below;
including
Displacement of the door portion in a lateral direction intersecting the sliding direction and the vertical direction of the door portion is allowed by elastic deformation of the upper elastic support portion , and a vertical load including the own weight of the door portion is When the displacement of the door portion in the lateral direction exceeds the elastic deformation of the upper elastic support portion, the upper platform side arm portion and the upper track side arm portion receive the displacement. to receive the lateral load by limiting the
Movable platform fence. The lower guide part is
A lower platform-side arm portion positioned on the platform side of the door portion and a lower track-side arm portion positioned on the track side of the door portion are connected to the door. a lower guide frame arranged oppositely so as to sandwich the portion from below;
a lower elastic support portion that elastically supports the lower roller;
including
Displacement of the door portion in the lateral direction is allowed by elastic deformation of the upper elastic support portion and the lower elastic support portion, and displacement of the door portion in the lateral direction is caused by the upper elastic support portion and the lower elastic support portion. When the elastic deformation of the lower elastic support portion is exceeded, the upper platform side arm portion and the upper track side arm portion and the lower platform side arm portion and the lower track side arm portion limit the displacement, thereby subjected to a load to
The movable platform fence according to claim 1. A movable platform fence comprising a door portion and a door pocket portion that slidably supports the door portion,
The door portion
an upper frame;
an upper rail structure provided on the upper surface of the upper frame;
a lower frame;
a lower rail structure provided at the lower edge of the lower frame;
has
The door case part
strength members and
an upper guide portion and a lower guide portion that are fixed to the strength member and support the door portion so as to sandwich the door portion from above and below;
Exterior and
has
The upper guide part is
an upper roller that contacts the upper rail structure from above;
including
The lower guide part is
A lower platform-side arm portion positioned on the platform side of the door portion and a lower track-side arm portion positioned on the track side of the door portion are connected to the door. a lower guide frame arranged oppositely so as to sandwich the portion from below;
a lower roller contacting the lower rail structure from below and a lower elastic support portion elastically supporting the lower roller;
including
Displacement of the door portion in a lateral direction intersecting the sliding direction and the vertical direction of the door portion is allowed by elastic deformation of the lower elastic support portion , and a vertical load including the own weight of the door portion is When the displacement of the door portion in the lateral direction exceeds the elastic deformation of the lower elastic support portion, the lower platform side arm portion and the lower track side arm portion receive the displacement. to receive the lateral load by limiting the
Movable platform fence. The door part has a convex part on the platform side surface and the track side surface,
The upper guide part and the lower guide part are provided at positions facing the convex part when fully closed,
The movable platform fence according to any one of claims 1 to 3 . The door case part includes the upper guide part and the lower guide part that support the door part on the platform side by vertically sandwiching it, and the upper guide part that supports the door part on the track side by sandwiching it vertically. and the lower guide part fixed to the strength member, and slidably supporting the two door parts,
The movable platform fence according to any one of claims 1 to 4.

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