JP3722479B2 - Interlocking sliding door device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
In the present invention, a sliding door composed of a front door and a rear door is slidably suspended, and at the time of opening and closing, if the front door is slid in the opening and closing direction while guiding the lower part of the sliding door with a guide mechanism, the sliding door is interlocked. The present invention relates to an interlocking sliding door device that opens and closes an opening by sliding a rear door.
[0002]
[Prior art]
Conventionally, as shown in FIG. 12, for example, this type of interlocking sliding door device is constructed by dividing the sliding door into two bodies, a rear door a and a front door b, and the upper lid of the doors a and b. Suspended vehicle bodies 1 are mounted on the bottom side and the door end side, and the doors 1a of the suspended vehicle bodies 1 are slidably engaged with guide rails 2 fixed to the upper part of the door frame e to suspend both doors a and b. At the time of opening, the sliding door housing position d is arranged so as to overlap the wall w.
[0003]
In such a conventional interlocking type sliding door device, the channel members 3 and 4 are recessed in the lower collar portions of the doors a and b to form the guide grooves 3a and 4a in the length direction. Guide rollers 5 and 6 are fitted into the grooves 3a and 4a so as to be freely rotatable, and a guide mechanism g for guiding the lower side of the sliding door is provided. In this guide mechanism g, the guide roller 5 for guiding the rear door a on the back side with respect to the wall w is erected on the floor surface f at the door tip side at the sliding door housing position d, and guides the front door b on the front side. The guide roller 6 is erected on a bent plate piece 7a of an angle plate 7 fixed to the door end side of the rear door a.
[0004]
At the time of opening and closing, when the front door b is slid in the opening and closing direction with respect to the wall w, the rear door a subsequently slides in conjunction with each other, thereby opening and closing the opening.
[0005]
[Problems to be solved by the invention]
However, in the conventional interlocking sliding door device as described above, when the door is opened and closed, the upper side of the sliding door is guided by moving the door 1a at two points on the left and right in the length direction with respect to the guide rail 2. Is a structure in which the guide rollers 5 and 6 are engaged and guided only at one point on one side of the guide grooves 3a and 4a, respectively. Therefore, when the doors a and b are sequentially pulled out and slid at the time of closing, as shown by the chain line in FIG. As a result, there was a problem that the operability of opening and closing the sliding door was extremely poor.
[0006]
Therefore, conventionally, in other interlocking type suspension door devices, although not shown in the drawings, the door carts are pivotally supported on the lower arm of the front and rear doors, respectively, while on the floor surface below the opening, There is a structure in which a guide rail is laid on a traveling path (sill portion), a door is engaged with a groove in the guide rail, and the lower side of the sliding door is guided so as not to swing sideways when opening and closing.
[0007]
However, in this conventional interlocking sliding door device, it is necessary to dent long grooves for a plurality of rails on the sill portion, and to lay guide rails there one by one, so that much effort is required for the construction of the entire guide mechanism. In addition, there is a problem that the guide rail protrudes on the floor surface, and the step becomes an obstacle to the passage of wheelchairs and the like, which also prevents barrier-free.
[0008]
Accordingly, an object of the present invention is to reduce the labor for assembling the guide mechanism at the lower part of the sliding door in the interlocking type sliding door device, and does not hinder the barrier-free opening at the opening, and the sliding door generates sideways during opening and closing. Is to improve the opening and closing operability.
[0009]
[Means for Solving the Problems]
Therefore, in order to achieve the above-mentioned object, the invention described in claim 1 slidably slides the sliding door 10 composed of the front door A and the rear door B as shown in the following illustrated embodiment. When the front door A is slid in the opening / closing direction while guiding the lower side of the sliding door 10 with the guide mechanism G, the rear door B interlocked with delay is slid. In the interlocking type sliding door device that opens and closes the opening S, the guide mechanism G is configured such that the rail body is slidably stacked on the top and bottom, and the other rail body is connected to the other rail body in a telescopic manner. The one side rail body of the slide rail R3 is fixed to the sliding door accommodation position D on the floor surface F, and the guide roller 45 is attached upward to the front end of the other side rail body. On the other hand, the lower collar 1 of the front door A A guide groove 19 is provided in the length direction, and the guide roller 45 is slidably engaged with the guide groove 19 so that the position of the guide roller is moved back and forth in the opening / closing direction according to the sliding operation of the front door A. It is configured to be possible.
[0010]
In the invention according to claim 2, for example, as shown in the embodiment shown below, the sliding door 10 composed of the front door A and the rear door B is slidably suspended and arranged at the sliding door accommodation position D. At the time of opening and closing, if the front door A is slid in the opening and closing direction while guiding the lower side of the sliding door 10 by the guide mechanism G, the opening S is opened and closed by sliding the rear door B interlocked with delay. In the type sliding door device, the guide mechanism G uses a slide rail R3 formed by slidably stacking a rail body up and down and connecting a rail body on the other side in a telescopic manner with respect to the rail body on one side, One side rail body of the slide rail R3 is fixed to the lower flange 13 of the front door A, and a guide roller 45 is attached downward to the rear end of the other side rail body, while the sliding door housing on the floor F is accommodated. At the position D, a long guide case 50 having a groove shape in cross section is provided. The guide roller 45 is fixed in the closing direction, and the guide roller 45 is rotatably engaged in the guide case 50 so that the position of the guide roller can be moved back and forth in the opening / closing direction according to the sliding operation of the front door A. It is characterized by.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0012]
FIG. 1 is a longitudinal sectional view showing an interlocking type sliding door device as an example of the present invention in an opened state, FIG. 2 is a perspective view, and FIG. 3 is a front view. The sliding door 10 that is opened and closed by the interlocking type hanging door device of the illustrated example is divided into two parts, one front door (outer door) A and the other rear door (inner door) B housed in the front door A. A retractable sliding door.
[0013]
The front door A has front and rear plate surface portions 11 and 11 to which the handle g is attached, laterally elongated upper and lower flange portions 12 and 13, and a longitudinally elongated front side surface portion 14, while a rear side surface portion is formed. It is assembled in the shape of a thin box on the whole that is opened to form the door access part. In particular, the lower collar portion 13 is formed by a metal guide frame attached to the lower edges of both plate surface portions 11. The guide frame 13 is bent and formed into a substantially channel shape as a whole, a rail fixing portion 13a having a U-shaped cross section, a mounting edge 13b extending outward from both side edges of the rail fixing portion 13a to a cross section L shape, and a length direction Stopper bent pieces 13c and 13d having both ends bent in opposite directions are provided.
[0014]
And the guide frame 13 makes the rail fixing | fixed part 13a penetrate between both board surface parts 11 * 11, the attachment edge 13b adheres to the lower edge 11a of both board surface parts 11 * 11, and the lower collar part of the front door A is attached. At the same time, a guide groove 19 into which a later-described guide roller 45 is fitted is formed downward. On such front door A, a suspended vehicle body 15 is mounted on the door end side of the upper collar part 12. In the suspended vehicle body 15, a door wheel 17 is assembled vertically on an angle plate 16 that is bolted upright on the upper collar 12.
[0015]
On the other hand, the rear door B enters and exits the front door A with front and rear plate surface portions 20 and 20, horizontally long upper and lower flange portions 21 and 22, and vertically long front and rear side surface portions 23 and 24. It is assembled into a thin box with a thickness that can be taken in and out of the unit. The upper and lower flange portions 21 and 22 are each formed by a metal mounting frame. The mounting frames 21 and 22 are both bent into a U-shaped cross section, and have rail fixing plate portions 21a and 22a, and mounting piece portions 21b and 22b that bend in a L-shaped cross section from both side edges of the rail fixing plate portion. . The upper and lower flange portions 21 and 22 are formed by being fixed to the two plate surface portions 20 in the direction in which the mounting piece portions 21b and 22b face each other on the back side between the two plate surface portions 20 and 20. In such a rear door B, a suspended vehicle body 25 is mounted on the door bottom side of the upper collar portion 21. In the suspended vehicle body 25, a door wheel 28 is vertically mounted on an angle plate 27 that is bolted to the door butt side of the upper collar portion 21 via a mounting bracket 26.
[0016]
Now, the sliding door 10 in the illustrated example is provided with slide rails R1 and R2 respectively attached to the upper flange portions 12 and 21 and the lower flange portions 13 and 22 of the front door A and the rear door B, respectively. Both doors A and B are slidably connected to each other at R2.
[0017]
The slide rails R1 and R2 use two long metal slide rails r as shown in FIG. 4, and each has a double slide rail structure. The single slide rail r includes an outer rail 30 having a long engaging portion 30a curved inward on both side edges, and an inner rail 31 having a similarly long engaging portion 31a curved outward on both side edges. The engaging portions 30a and 31a are engaged with each other via a large number of metal balls 33 held so as to be rollable by the ball retainer 32, and the rails 30 and 31 are slidably connected to each other. . The outer rail 30 has stopper bent pieces 30b that restrict the sliding range at both ends in the length direction. On the other hand, the inner rail 31 has a stopper bent piece on one side in the length direction.
[0018]
Therefore, as shown in FIG. 1, each of the slide rails R1 and R2 is constructed by stacking the inner rails 31 and 31 'with each other back to back and integrating the two slide rails r by welding. And the slide rail R1 attached to the upper collar part 12 * 21 adheres the outer rail 30 of the upper slide rail single-piece r to the inner surface of the upper collar part 12 of the front door A with a screw. The outer rail 30 'of the lower slide rail unit r is fixed to the outer surface of the upper flange portion 21 of the rear door B with a screw.
[0019]
The slide rail R2 to be attached to the lower flange portions 13 and 22 fixes the outer rail 30 of the upper slide rail unit r to the outer surface of the lower flange portion 22 of the rear door B with screws. The outer rail 30 ′ of the lower slide rail alone is fixed to the outer surface of the lower flange portion 13 of the front door A with a screw. Therefore, as shown in FIG. 5, the slide rails R1 and R2 are configured such that the inner rails 31 and 31 'can be slid freely with respect to the fixed outer rail 30' on the lower side, and further, The outer rail 30 has a double slide rail structure in which the outer rail 30 is slidable with respect to each other and the slide stroke is increased accordingly.
[0020]
In addition, in the illustrated example, the slide rails R1 and R2 are respectively attached to the upper flange portions 12 and 21 and the lower flange portions 13 and 22 of the front door A and the rear door B, as shown in FIGS. It also functions as a support frame that reinforces the upper and lower flanges, and the rigidity of the front door A and the rear door B is increased accordingly.
[0021]
As described above, the front door A and the rear door B, which are integrally connected by the slide rails R1 and R2, are engaged with the traveling guide rail 35 in which the respective door wheels 17 and 28 are fixed to the upper portion of the door frame E. The guide rail 35 is slidably suspended. The front door A and the rear door B are guided as the sliding door 10 in a state in which the rear door B is accommodated in the front door A at the sliding door accommodation position D formed along the wall W when the opening S is opened. Suspended on the rail 35.
[0022]
As shown in FIG. 6, in the sliding door 10, the suspended vehicle body 25 mounted on one rear door B is provided with a large gear portion 28 a coaxially with the door wheel 28, while the same angle plate 27 rotates the door wheel 28. A braking means 40 for braking the motor is assembled. The braking means 40 is supported by a support plate 41 and attached to the angle plate 27 via the support plate. The braking means 40 is not shown in the cylindrical case 40a, but a rotor is rotatably accommodated with a slight gap from the inner peripheral surface of the cylindrical case 40a, and the gap is filled with silicone oil and sealed. When the rotor rotates, a braking torque is generated by the viscous resistance of silicon oil.
[0023]
Therefore, the braking means 40 projects the tip of the rotor shaft 40b of the rotor from the cylindrical case 40a toward the door wheel 28 and is fitted into the small gear 40c, and the small gear 40c is engaged with the large gear portion 28a of the door wheel 28. ing. When the rear door B slides in the opening / closing direction and the rotational force of the door pulley 28 is transmitted to the rotor, a braking torque is generated to reduce the sliding of the rear door B.
[0024]
On the other hand, in particular, the interlocking type sliding door device described above includes a guide mechanism G on the lower side for guiding the lower side of the sliding door 10 so as not to swing sideways during the opening / closing operation, as shown in FIGS. .
[0025]
A guide mechanism G according to the present invention includes a slide rail R3 formed by using, for example, one slide rail r. The slide rail R3 is arranged in the sliding door opening / closing direction with the inner rail 31 on the lower side with respect to the outer rail 30, and is fixed to the sliding door accommodation position D on the floor F with a screw. On the upper outer rail 31, a short shaft 44 is erected on the front end portion thereof, that is, on the door end side, and a guide roller 45 is horizontally mounted on the short shaft 44 so as to be rotatable. The guide roller 45 is rotatably engaged with a guide groove 19 provided in the lower flange portion 13 of the front door A, and the guide roller position can be moved back and forth in the opening / closing direction according to the sliding operation of the front door A. Do it.
[0026]
Now, when the interlocking sliding door device having the above-described configuration is operated and the sliding door 10 is slid to the sliding door housing position D to close the opening S, the front door A is first held with the handle g. Pull out. Then, the front door A rolls on the traveling guide rail 35 on the upper side and slides linearly by the guide rail 35, and at the same time, on the lower side, the guide roller in the guide groove 19. While the horizontal swing is regulated at 45, the guide mechanism G guides and slides linearly.
[0027]
At this time, the front door A is slid integrally with the rear door B through the upper and lower slide rails R1 and R2 in particular in relation to the rear door B, and is also laterally moved by the slide rails R1 and R2. Without being shaken, it is guided and drawn out linearly. That is, in the upper collar portion 12, the upper outer rail 30 slides with respect to the integral inner rails 33 and 33 'of the slide rail R1, and then the inner rail integrated with the lower outer rail 30' fixed to the rear door B. The rails 31 and 31 'slide forward and extend sequentially. In the lower collar portion 13, the lower outer rail 30 ′ slides with respect to the integral inner rails 33, 33 ′ of the slide rail R 2, and then the integral inner rail 31 with respect to the upper outer rail 30 fixed to the rear door B.・ 31 'slides forward and extends sequentially.
[0028]
Thus, while the front door A is pulled out, the rear door B has the slide rails R1 and R2 extending to the maximum at the upper and lower flange portions 21 and 22, and the front ends of the ball retainers 32 are the outer rail 30 and the inner rail 31. When it sequentially hits the stopper bent pieces, it is linked with the slide of the front door A and is pulled out at a slightly delayed timing. At this time, the rear door B slides linearly with the guide rail 35 as the door wheel 28 rolls on the traveling guide rail 35 on the upper side. At the same time, particularly in relation to the front door B, the slide slides integrally with the front door A through the upper and lower slide rails R1 and R2, and the slide rails R1 and R2 are straight without causing lateral vibration. Is guided and pulled out.
[0029]
Thus, when the rear door B is pulled out in the closing direction, the rotation of the door wheel 28 is transmitted through the meshing of the gears 28a and 40c, and the braking means 40 is activated. Then, when the rotor of the braking means 40 rotates, a braking torque is generated by the viscous resistance of silicon oil accordingly, the rotation of the door wheel 28 is decelerated, and the rear door B is slid at a slower speed than the front door A.
[0030]
On the other hand, when the front door A is in the middle of sliding, when the guide roller 45 abuts on the stopper bent piece 13d provided on the rear end side of the lower collar portion 13, the outer rail 30 of the slide rail R3 slides and is pulled out. The inner rail 31 fixed on the surface F extends in the closing direction. Then, as the outer rail 30 extends, the door-side guide roller 45 moves forward in the closing direction. The guide roller 45 moves to the front position until the stopper bent piece 30b of the outer rail 30 hits the end of the ball retainer 32.
[0031]
Therefore, when the front door A continues to slide, the front door A is guided on the lower side by the guide roller 45 that has moved forward in the closing direction while restricting lateral vibration, and is drawn out linearly. Thus, the front door A and the rear door B are sequentially interlocked, and are drawn linearly as shown in FIGS. 7 and 8, and the opening S is closed.
[0032]
On the other hand, when the opening S is opened, the front door A is pulled back with the handle g. When the opening A is closed, the front door A is on the upper side of the front door A, and the door 17 is connected to the guide rail 35 for traveling. Rolls up and slides linearly with the guide of the guide rail 35. At the same time, on the lower side, the guide roller 45 in the guide groove 19 regulates the lateral vibration, and the guide mechanism G guides it linearly. Slide.
[0033]
At this time, the front door A also slides integrally with the rear door B via the upper and lower slide rails R1 and R2, especially in relation to the rear door B, and is also slid by the slide rails R1 and R2. It is guided back linearly without causing side shake. That is, in the upper collar portion 12, the upper outer rail 30 slides with respect to the integral inner rails 33 and 33 'of the slide rail R1, and then the inner rail integrated with the lower outer rail 30' fixed to the rear door B. The rails 31 and 31 'slide. In the lower collar portion 13, the lower outer rail 30 ′ slides with respect to the integral inner rails 33, 33 ′ of the slide rail R 2, and then the integral inner rail 31 with respect to the upper outer rail 30 fixed to the rear door B.・ 31 'slides.
[0034]
Thus, the front door A is pulled back, while the rear door B has the upper and lower flanges 21 and 22 where the upper and lower outer rails 30 and 30 'of the slide rails R1 and R2 completely overlap with the integrated inner rails 31 and 31'. When the stopper folded piece comes into contact with the front door A, it starts to slide at a slightly delayed timing in conjunction with the slide of the front door A. Then, similarly to the case of closing described above, the vehicle is decelerated by the braking means 40 and pulled back while sliding at a speed slower than that of the front door A. At this time, the rear door B, on the upper side, the door wheel 28 rolls on the traveling guide rail 35 and slides linearly with the guide rail 35, and at the same time, particularly in relation to the front door A. Then, it slides in an integrally connected state with the front door A via the upper and lower slide rails R1 and R2, and is guided back linearly by the slide rails R1 and R2 without causing lateral vibration.
[0035]
On the other hand, when the front door A is pulled back, when the guide roller 45 hits the stopper bent piece 13c on the front end side of the lower collar part 13 during the sliding, the outer rail 30 of the slide rail R3 is moved to the floor surface F. It slides in a direction overlapping with the fixed inner rail 31 and is pulled back. Accordingly, when the front door A continues to slide thereafter, the front door A is guided on the lower side while being controlled by the guide roller 45 in the guide groove 19 while being laterally shaken, and is pulled back linearly. Thus, the front door A and the rear door B are sequentially interlocked and pulled back to the sliding door housing position D as shown in FIGS. 2 and 3, and the opening S is opened.
[0036]
By the way, the above-described guide mechanism G of the sliding door 10 fixes the slide rail R3 to the sliding door accommodation position D on the floor surface F, attaches the guide roller 45 upward on the slide rail R3, and moves the guide roller position to the front. According to the sliding movement of the door A, it is configured to move back and forth in the opening / closing direction. However, the guide mechanism G according to the present invention is not limited to the configuration of the above illustrated example, and the slide rail R3 is fixed to the lower flange 13 side of the front door A, as shown in the following illustrated embodiment, A guide roller 45 may be attached downward on the slide rail R3, and similarly, the guide roller position may be moved back and forth in the opening / closing direction according to the sliding operation of the front door A.
[0037]
In the guide mechanism G of the other example shown in the figure, the slide rail R3 is arranged such that, for example, as shown in FIGS. 9 and 10, the outer rail 30 is disposed downward in the guide groove 19 of the front door A and the upper inner rail 31 is lowered. It adheres to the outer surface of the collar 13 with screws. Then, the short shaft 44 is suspended downward from the rear end portion of the outer rail 30, that is, the door bottom side, and the guide roller 45 is rotatably attached to the lower end of the short shaft 44 in a horizontal direction. On the other hand, on the floor surface F, the guide case 50 is fixed along the wall W at the sliding door accommodation position D in the sliding door opening / closing direction. The guide case 50 is formed by bending into a long box shape having a cross-sectional groove shape with the upper side opened in the drawing. Then, with the front door A suspended, the guide roller 45 on the slide rail R3 side is slidably engaged with the guide groove 51 formed in the guide case 50, and the position of the guide roller is set to the position of the front door A. It is configured to be movable back and forth in the opening / closing direction according to the sliding operation.
[0038]
Therefore, in the guide mechanism G of the other example shown in the figure, when the opening S is closed, the front door B is pulled out, and when the rear door B slides with a delay, the guide roller 45 rotates in the guide groove 51 of the guide case 50 accordingly. It moves forward in the closing direction while moving, and guides the front door A linearly while restricting the lateral swing on the lower side together with the rear door B connected by the slide rails R1 and R2. Further, when the front door A continues to slide, the inner rail 31 fixed to the front door A slides and extends with respect to the outer rail 30 accordingly, and the lateral vibration is continuously restricted by the guide roller 45 through the extended slide rail R3. While guiding both doors A and B linearly. The lower side of the doors A and B until the guide roller 45 moves to the first guide roller position where it abuts against the front end 50a of the guide case 50, that is, until the opening S is closed as shown in FIG. Is guided linearly.
[0039]
In the guide mechanism G of the other example shown in the figure, the slide rail R3 is formed by a single slide rail r. For example, two slide rails r are used and a double slide rail having a two-stage slide structure as shown in FIG. Thus, the slide stroke of the slide rail R3 can be lengthened, and the guide roller position can be further moved forward in the closing direction.
[0040]
In the guide mechanism G of the other example shown in the figure, the outer rail 30 and the inner rail 31 are engaged and connected via a large number of balls 33 held by a ball retainer 32 as the slide rail R3 of the guide mechanism G. However, in the present invention, any slide rail other than the above-described illustrated examples can be used as long as the rail body is slidably stacked on the upper and lower sides and the other rail body is connected to the other rail body in a telescopic manner. It does not exclude things.
[0041]
In the above, the front door A and the rear door B of the sliding door 10 have been described by exemplifying the retractable interlocking type sliding door device. However, the guide mechanism G in the present invention has the front door and the rear door sideways. Of course, the present invention can also be applied as a guide structure for other interlocking type sliding doors, such as sliding sliding doors arranged in an interlocking manner.
[0042]
【The invention's effect】
According to the present invention, in the interlocking type sliding door device, the guide mechanism for guiding the lower side of the sliding door is attached to the slide rail, and the position of the guide roller is changed in the opening / closing direction according to the sliding operation of the front door. When the sliding door is closed, when the rail body of the slide rail slides according to the sliding of the front door, the guide roller moves forward in the closing direction. The sliding door can be smoothly slid while restricting the lateral swing, and as a result, the opening / closing operability of the sliding door can be further improved.
[0043]
Further, in the sliding door guide mechanism, the slide rail or guide case fixed to the floor surface side is fixed to the sliding door receiving position away from the opening that does not obstruct passage, and the sliding door is guided, so that It is possible to simplify the assembly of the guide mechanism by eliminating the trouble of laying a plurality of guide rails in the sill, and to sufficiently meet the demand for barrier-free in the opening.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view showing an interlocking type sliding door device as an example of the present invention in a sliding door open state.
FIG. 2 is a perspective view thereof.
FIG. 3 is a front view thereof.
FIG. 4 is a perspective view showing a structure of a single slide rail.
FIG. 5 is a perspective view showing a double slide rail structure of a slide rail.
FIG. 6 is a perspective view of a suspended vehicle body provided with braking means mounted on a rear door.
FIG. 7 is a perspective view showing the interlocking type sliding door device in a sliding door closed state.
FIG. 8 is a front view thereof.
FIG. 9 is a longitudinal sectional view showing an interlocking type sliding door device including another guide mechanism in a sliding door open state.
FIG. 10 is a perspective view thereof.
FIG. 11 is a perspective view showing another interlocking type sliding door device in a sliding door closed state.
FIG. 12 is a side view showing a conventional interlocking type sliding door device.
FIG. 13 is a plan view for explaining a lateral swing state of a sliding door in a conventional interlocking sliding door device.
[Explanation of symbols]
A Front door B Rear door D Sliding door accommodation position F Floor G Guide mechanism R1, R2, R3 Slide rail S Opening part 10 Sliding door 12, 21 Upper collar part 13, 22 Lower collar part 19, 51 Guide groove 30, 30 'Outer Rail 31 Inner rail 45 Guide roller 50 Guide case

Claims (2)

A sliding door consisting of a front door and a rear door is slidably suspended and placed at the sliding door accommodation position, and at the time of opening and closing, the front door is slid in the opening and closing direction while guiding the lower side of the sliding door with a guide mechanism. In the interlocking type sliding door device that opens and closes the opening by sliding the rear door that interlocks with delay,
The guide mechanism is
A slide rail is formed by slidably stacking a rail body up and down and connecting a rail body on the other side in a telescopic manner with respect to the rail body on one side, and the one side rail body of the slide rail is connected to the sliding door on the floor surface. The guide roller is fixed to the storage position and attached to the front end of the other side rail body with the guide roller facing upward, while a guide groove is provided in the length direction in the lower collar portion of the front door, and the guide roller is provided in the guide groove. An interlocking type sliding door device that is configured to be freely rotatable and configured such that the position of the guide roller can be moved back and forth in the opening / closing direction according to the sliding operation of the front door. A sliding door consisting of a front door and a rear door is slidably suspended and placed at the sliding door accommodation position, and at the time of opening and closing, the front door is slid in the opening and closing direction while guiding the lower side of the sliding door with a guide mechanism. In the interlocking type sliding door device that opens and closes the opening by sliding the rear door that interlocks with delay,
The guide mechanism is
A slide rail is formed in which a rail body is slidably stacked on top and bottom and the other rail body is telescopically connected to a rail body on one side. While fixing the guide roller downward to the rear end of the other side rail body on the door bottom side, while fixing the long guide case of the cross-sectional groove shape to the sliding door accommodation position on the floor surface in the opening and closing direction, An interlocking type sliding door device configured such that the guide roller is slidably engaged in the guide case, and the position of the guide roller can be moved back and forth in the opening / closing direction according to the sliding operation of the front door.

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