JP3711934B2 - Vertical sliding sliding door device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The invention of this application relates to a vertical sliding sliding door device. More specifically, the invention of this application relates to a sliding door that slides in a vertical direction provided in a front opening of a cabinet body, and when a tension member such as a wire or a rope that connects the door and a weight breaks for some reason, the door This invention relates to a vertical sliding sliding door device which prevents free fall, is excellent in safety and practically excellent.
[0002]
[Prior art]
As the door that opens and closes the front opening of the cabinet body, an open door, a sliding door, and the like are known. However, a vertical sliding door device that slides in the vertical direction to open and close the front opening of the cabinet body has been proposed.
[0003]
This vertical sliding sliding door device can be shown, for example, in FIG. 6, which allows the door (1) to slide up and down in the front opening (3) of the cabinet body (2). The front opening (3) can be opened and closed by the vertical sliding of (1).
[0004]
Specifically, in the vertical sliding sliding door device, a weight (5) formed in a bar shape or the like is connected to a door (1) via a tension member (4) such as a wire or a rope. The weight (5) has the same or substantially the same weight as the door (1) and extends in the height direction of the cabinet body (2). For example, the guide rail is provided on the back plate side of the cabinet body (2). Along with (6), the door (1) is slidable in the vertical direction. The tension member (4) connecting the weight (5) and the door (1) is guided by a guide roller (7). Therefore, in the vertical sliding sliding door device, the door (1) can be slid in the vertical direction and stopped at an arbitrary position.
[0005]
[Problems to be solved by the invention]
However, several problems are pointed out in the above-described vertical sliding sliding door device. One of them is a safety problem when the tension member (4) is cut for some reason. When the tension member (4) connecting the door (1) and the weight (5) is cut, the door (1) may fall due to its own weight. If this happens when taking out and storing the article, there is a risk of injury and it is dangerous.
[0006]
Therefore, assuming that the tension member (4) is completely broken, in order to prevent the door (1) from being unexpectedly dropped, the vertical sliding sliding door device shown in FIG. It is connected by a connecting plate (8) extending in the width direction of the main body (2). As a result, even if the tension member (4) on either the left or right side is cut, the door (1) is pulled up by the weight (5) on the other side, so that the door (1) falls freely. Can be prevented.
[0007]
On the other hand, if the free fall of the door (1) can be prevented without providing the connecting plate (8), that is, with the left and right weights (5) being independent, the structure of the vertical sliding sliding door device is simple. Therefore, it should be easy to construct and cost-effective.
[0008]
Therefore, a stopper (9) as shown in FIG. 7 has been devised for a door device of a building (Japanese Patent Laid-Open No. 8-4415).
[0009]
In this stopper (9), the brake fitting (10) is rotatable about the pin (11), and the brake fitting (10) is provided with a guide roller (7) for guiding the tension member (4). A pin (12) which is the center of rotation passes therethrough. Therefore, normally, the tension of the tension member (4) is applied to the brake fitting (10) via the pin (12). A spring (13) having one end as a fixed end is provided below the pin (12), and the other end is connected to the brake fitting (10). For this reason, normally, the spring (13) is expanded by receiving the tension of the tension member (4), and as a result, the elastic force directed downward is accumulated.
[0010]
In the stopper (9) having the above configuration, when the tension member (4) is cut for some reason, the tension becomes zero, so that the brake fitting (10) is caused by the elastic force accumulated in the spring (13). It rotates in the direction of the arrow shown in the figure, and its tip part comes into contact with the inner surface of the vertical frame (14) provided at the edge of the front opening (3), serves as a brake shoe, Prevent free fall of door (1).
[0011]
However, in order to make such a stopper (9) real, as shown in FIG. 7, the tip of the brake fitting (10) is formed in a sawtooth shape, and the inner surface of the vertical frame (14). It is necessary to bite the serrated tip like a wedge. This is because the door (1) has its own weight, and free fall cannot be prevented simply by frictional force. Accordingly, not only the brake fitting (10) but also the vertical frame (14) needs to be designed so that no damage is caused when free fall is prevented, and practical application is quite difficult.
[0012]
The invention of this application was made in view of such circumstances, and in a sliding door that slides in the vertical direction provided in the front opening of the cabinet body, a tension member such as a wire or rope that connects the door and the weight. The problem to be solved is to provide a vertical sliding sliding door device that prevents the door from free-falling when it is cut for some reason, and is excellent in safety and practical.
[0013]
[Means for Solving the Problems]
In the invention of this application, as a solution to the above problems, a weight having the same or substantially the same weight as the door is connected to each of a plurality of doors juxtaposed in front and rear via a tension member. The door can be slid in the vertical direction, and each door is supported by a support plate at both left and right ends, one end of the tension member is connected to either the front or back surface of the support plate, and weights are attached to the left and right sides of the door. It is independently connected one by one, and rollers are arranged on either the front or back side of the support plate, and the part to which the roller of the support plate is attached can be stored in the hollow part of the hollow columnar vertical frame, A plurality of rails for guiding the roller is a vertical sliding sliding door device provided integrally with the inner surface of the vertical frame so as to protrude into the hollow portion, and the support plate further includes a tension portion at a position above the roller. A stopper is provided to turn the tip of the stopper to contact the inner surface of the vertical frame on which the rail is disposed and press the rail, and with the contact and pressing of the tip of the stopper to the inner surface of the vertical frame. The roller is pressed against the rail provided on the inner surface opposite to the inner surface of the vertical frame pressed by the tip of the stopper, and the door freely falls by pressing the front and back of the inner surface of the vertical frame by the stopper tip and the roller, respectively. An up-and-down sliding sliding door device (Claim 1) is provided.
[0014]
In the invention of this application, the stopper has a tip portion that contacts and presses the inner surface of the vertical frame, and a locked portion that is locked by a tension member connected to the support plate, and the tip portion rotates downward. The moving claw, the rotation shaft that forms the rotation center of the rotation claw, and the outer periphery of the rotation shaft are wound around the rotation shaft when the rotation body is arranged with the tip portion facing downward. This is provided with a helical spring that generates and accumulates elastic force, and when the tension member breaks, the latching by the tension member is released and the elastic force accumulated in the helical spring is released. The rotation claw rotates upward about the rotation axis, and the tip of the rotation claw contacts and presses the inner surface of the vertical frame (Claim 2).
[0015]
Hereinafter, the vertical sliding sliding door device of the present invention will be described in more detail with reference to the drawings.
[0016]
In the following embodiment, the number of doors is two, but the vertical sliding door device of the invention of this application is not particularly limited to two doors, and there are two or more doors. Is targeted.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
1 <a><b><c> are respectively a perspective front view, a side sectional view, and a plan view showing an embodiment of the vertical sliding sliding door device of the present invention together with a cabinet body. FIG. 2 is a cross-sectional view specifically showing the left vertical frame portion in the vertical sliding sliding door device of the invention of this application. 3 <a><b> are respectively a longitudinal sectional view and an inner side view of the vertical frame portion shown in FIG.
[0018]
In the vertical sliding sliding door device of the invention of this application, as shown in FIG. 1 <a>, <b>, and <c>, as shown in FIG. A weight (5) having the same or substantially the same weight as that of the door (1) is connected via a tension member (4) such as a wire and a rope so that each door (1) can be slid in the vertical direction. Yes. As shown in FIG. 2, each door (1) is supported by a support plate (16) connected to a vertical rod (15) or the like disposed at both left and right ends thereof. As shown in FIGS. 3 <a> and <b>, one end of a tension member (4) is connected to either the front or back surface of the support plate (16). The other end of the tension member is connected to the weight (5) shown in FIG. 2 that is independently provided on each of the left and right sides of the door (1), and the support plate (16) and the weight (5) are connected to each other. It is connected. Moreover, the roller (17) is arrange | positioned by the support plate (16) on either the front or back surface. The portion (16a) to which the roller (17) of the support plate (16) is attached can be stored in the hollow portion (18a) of the hollow columnar vertical frame (18). On the inner surface of the vertical frame (18), a plurality of rails (19) for guiding the roller (17) are provided integrally with the hollow portion (18a). The roller (17) is at least vertically on the same surface in one support plate (16) extending in the vertical direction so that the support plate (16) can smoothly slide up and down along the rail (19). It can be provided in two places.
[0019]
Further, in the vertical sliding sliding door device of the invention of this application, as shown in FIG. 3, when the tension member (4) is cut further on the support plate (16) and at a position higher than the roller (17), FIG. 3 <a> A stopper (20) which rotates in the direction of the arrow shown in the drawing and the tip (20a) contacts the inner surface of the vertical frame (18) on which the rail (19) is disposed and presses it. ) Is provided.
[0020]
In the vertical sliding door device of the present invention having the above-described configuration, when the tension member (4) is cut, the stopper (20) is in the direction of the arrow shown in FIG. The tip end portion (20a) comes into contact with and presses the inner surface of the vertical frame (18) on which the rail (19) is disposed. Since the stopper (20) is provided at a position above the roller (17) in the support plate (16), the roller (17) is brought into contact with and pressed by the tip (20a) of the stopper (20). It is pressed against the rail (19) provided on the inner surface opposite to the inner surface of the vertical frame (18) to be pressed as indicated by the arrow in FIG. 3 <a>.
[0021]
Accordingly, in the vertical sliding sliding door device of the invention of this application, when the tension member (4) is cut, the front end portion (20a) of the stopper (20) and the roller (17) are respectively disposed on the front and back of the inner surface of the vertical frame (18). Since it presses, it can prevent that a door (1) falls freely. Although it may not be possible to completely prevent the door (1) from dropping and maintain the position where the tension member (4) is broken, at least the door (1) will not fall freely. . It is guaranteed to fall slowly enough to avoid danger.
[0022]
Thus, in the vertical sliding door device of the invention of this application, the weight (5) is independently arranged on each of the left and right sides of the door (1), which is advantageous in terms of cost and the like because the structure is simple and easy to construct. However, when this is connected to the door (1) via the tension member (4), even if the tension member (4) breaks for some reason, the door (1) does not fall freely and safety is improved. Secured. Moreover, the stopper (20) is easier to design than the stopper (9) shown in FIG. 7, and the vertical sliding sliding door device of the invention of this application is practically superior. This is because the vertical sliding sliding door device of the invention of this application does not brake the free fall of the door (1) only by the stopper (20), and in addition, supports the left and right ends of the door (1). This is because the roller (17) provided on the front or back surface of the support plate (16) to be pressed is pressed against the rail (19) to brake, and the load applied to the stopper (20) can be dispersed. .
[0023]
In addition, although various structures can be employ | adopted for the stopper (20) in the up-and-down sliding sliding door apparatus of this invention, the following structures are illustrated, for example.
[0024]
That is, as shown in FIGS. 4 <a>, <b>, and <c>, the stopper (20) is in contact with and pressed against the inner surface of the vertical frame (18), and FIGS. Rotating claw having a locked portion (21) locked to a tension member (4) connected to a support plate (16) shown in a><b> and having a tip portion (20a) facing downward (22) can be provided. For example, as shown in FIGS. 4 <a><b><c>, the rotating claw (22) has a substantially arcuate plate shape in which a pin hole (23) is formed through one end. Two plates (24) can be arranged in parallel as a pair, and both can be connected by a locked plate (25). The tip (20a) that contacts and presses the inner surface of the vertical frame (18) can be formed at the end of the nail plate (24) opposite to the pin hole (23), and the locked plate ( The back surface of 25) can be used as the locked portion (21) by the tension member (4).
[0025]
Moreover, the stopper (20) can be provided with a rotation shaft (26) as shown in FIGS. 3 <a> and <b> that forms the rotation center of the rotation claw (22). For example, a pin or the like can be used for the rotating shaft (26), and each of the two claw plates (24) of the rotating claw (22) shown in FIGS. The rotating shaft (26) can be formed by inserting both of the formed pin holes (23).
[0026]
Further, the stopper (20) is wound around the outer periphery of the rotating shaft (26), is locked at the locked portion (21) by the tension member (4), and the tip end (20a) is turned downward. When the moving claw (22) is arranged, it is squeezed so as to wind around the rotating shaft (26), thereby generating and accumulating elastic force, as shown in FIGS. 5 <a><b><c>. Such a helical spring (27) can also be provided.
[0027]
It should be noted that both ends of the helical spring (27) can be connected and arranged at appropriate sites on the assumption that the above functions are realized.
[0028]
In the stopper (20) constituted by the rotating claw (22), the rotating shaft (26) and the helical spring (27), when the tension member (4) is cut, the engagement by the tension member (4) is achieved. Since the stop is released, the elastic force accumulated in the helical spring (27) is released, and the rotation claw (22) rotates upward about the rotation axis (26), and the tip ( 20a) contacts and presses the inner surface of the vertical frame (18).
[0029]
The above stopper (20) is only one form, and is not particularly limited in the vertical sliding sliding door device of the invention of this application. As long as the tension member (4) is cut and rotated, the tip (20a) contacts the inner surface of the vertical frame (18) on which the rail (19) is disposed, and can be pressed as long as it can be pressed. Configurations and structures can be employed.
[0030]
And the invention of this application is not limited by the above embodiment. It goes without saying that various modes are possible for details such as the configuration and structure of the support plate and the vertical frame, the type of the tension member, and the like.
[0031]
【The invention's effect】
As described above in detail, according to the invention of this application, in the sliding door that slides in the vertical direction provided in the front opening of the cabinet body, even if the weights are independently arranged on the left and right sides of the door, When a tension member such as a wire or rope connecting the weight breaks for some reason, the door does not fall freely, and safety is ensured. In addition, since the vertical sliding sliding door device of the invention of this application does not prevent free fall by the stopper alone, the stopper design is easy and the utility is excellent.
[Brief description of the drawings]
FIG. 1 is a perspective front view, a side cross-sectional view, and a plan view showing an embodiment of a vertical sliding sliding door device according to the invention of this application together with a cabinet body, respectively.
FIG. 2 is a transverse sectional view showing a left vertical frame portion in the vertical sliding sliding door device of the present invention.
FIGS. 3A and 3B are a longitudinal sectional view and an inner side view of a vertical frame portion shown in FIG. 2, respectively.
FIGS. 4A and 4B are a front view and a side view, respectively, showing one form of a rotating claw that can be provided in a stopper in the vertical sliding sliding door device of the invention of this application together with a tension member. FIG.
<a><b><c> are a front view, a side view, and a bottom view showing one embodiment of a helical spring that can be provided in the stopper in the vertical sliding sliding door device of the invention of this application, respectively. It is.
FIGS. 6A and 6B are a perspective view and an enlarged perspective view of an essential part showing an outline of an up-and-down sliding sliding door device proposed before this application.
FIG. 7 is a cross-sectional view of an essential part showing a stopper for preventing the door from falling freely when the weights are connected to the door via a tension member with the weights independent from each other.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Door 2 Cabinet main body 3 Front opening part 4 Tension member 5 Weight 6 Guide rail 7 Guide roller 8 Connecting plate 9 Stopper 10 Brake bracket 11, 12 Pin 13 Spring 14 Vertical frame 15 Vertical rod 16 Support plate 16a The part where the roller was attached 17 Roller 18 Vertical frame 18a Hollow portion 19 Rail 20 Stopper 20a Tip portion 21 Locked portion 22 Rotating claw 23 Pin hole 24 Claw plate 25 Locked plate 26 Rotating shaft 27 Spiral spring

Claims (2)

Each of a plurality of doors juxtaposed in front and rear is connected to a weight having the same or substantially the same weight as the door via a tension member so that each door can slide in the vertical direction. Supported by support plates at both ends, one end of the tension member is connected to either the front or back surface of the support plate, weights are independently connected to the left and right sides of the door, one by one, A roller is disposed on either surface, and a portion of the support plate on which the roller is attached can be stored in a hollow portion of a hollow columnar vertical frame, and a plurality of rails for guiding the roller are provided on the inner surface of the vertical frame. The upper and lower sliding sliding door devices are integrally provided so as to protrude into the hollow portion, and the support plate is further rotated to a position above the roller when the tension member is broken, and the tip portion is provided with a rail. Vertical A stopper that contacts and presses the inner surface is provided, and with the contact and pressing of the tip of the stopper to the inner surface of the vertical frame, the roller is placed on the inner surface opposite to the inner surface of the vertical frame pressed by the tip of the stopper. An up-and-down sliding sliding door device that is pressed against a provided rail and prevents the door from freely falling by pressing the front and back of the inner surface of the vertical frame with a stopper tip and a roller, respectively. The stopper has a distal end portion that contacts and presses the inner surface of the vertical frame and a locked portion that is retained by a tension member connected to the support plate. When the rotating body is arranged with the rotating shaft forming the rotation center of the rotating shaft and the outer periphery of the rotating shaft and the tip portion facing downward, the rotating shaft is squeezed so as to be wound around the rotating shaft. A helical spring that generates and accumulates force, and when the tension member breaks, the elastic force accumulated in the helical spring is released by releasing the locking by the tension member, with the rotation axis as the center The vertical sliding sliding door device according to claim 1, wherein the rotating claw rotates upward, and a tip portion thereof contacts and presses the inner surface of the vertical frame.

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