JP3185857U - Slide rail unit - Google Patents

Abstract

In a slide rail unit including a fixed rail and a moving rail, there is provided a slide rail unit capable of reducing the labor at the time of assembly by a manufacturer and securely holding the drawer while being accommodated.
An elastic body 18 is attached to an end portion of a fixed rail 11, and a lock for fitting the elastic body 18 of the fixed rail 11 to the front end surface of the end portion of the moving rail 13 when the moving rail 13 slides. A pair of groove forming portions 36, 36 that form the cut-out grooves 34 and that face the ends of the movable rail 13 that forms the lock-out notches 34 constitute a stopper portion 35, which is larger than the thickness of the elastic body 18. It is set to length.
[Selection] Figure 1

Description

  The present invention relates to a slide rail unit, and more particularly to a slide rail unit that can reliably hold a drawer such as furniture while being accommodated.

Structures such as furniture and cabinets include, for example, a main body and a plurality of upper and lower drawers housed in the main body. The drawer is slidably attached to the main body by slide rail units on both sides.
In recent years, some drawers of furniture are provided with a lot of dampers for suppressing sudden movement using hydraulic pressure or gas pressure. With this damper, when the drawer is pushed into the main body, the drawer automatically moves from a certain distance and closes slowly and silently.
Conventionally, as shown in FIG. 10, in the slide rail unit 101, an elastic body 103 is attached to the end of the fixed rail 102, and when the moving rail 104 moves to the end surface of the moving rail 104, the elastic There is a structure in which a locking cutout groove 105 for fitting the body 103 is formed. In this structure, the pair of groove forming portions 106 and 106 that form the locking notch groove 105 constitute a stopper portion 107. The length M of the pair of groove forming portions 106 and 106 is a working distance of the stopper portion 107 and is set to be substantially the same as the thickness N of the elastic body 103.
As the structure of such a slide rail unit, there are the following prior art documents.

Japanese Patent No. 4436154

  The drawer guide and the shock absorber according to Patent Document 1 couple the piston rod of the shock absorber to a coupling portion that moves in the same direction as the movable rail by moving the movable rail, and advance and retreat by moving the coupling portion. Structure.

  However, even in the case of a single piece of furniture or cabinet, there are some places where a damper is attached and some places where a damper is not attached. In places where a damper is not attached, a cushion for silencing is required, which is about a few millimeters However, since the displacement of the front surface of the drawer occurs, the working distance of the stopper part of the slide rail unit varies depending on the structure, and the manufacturer makes a delicate adjustment to compensate for the error of the rail mounting position. Therefore, since the labor for assembling becomes great, improvement has been desired.

  Accordingly, an object of the present invention is to provide a slide rail unit that can reduce the labor at the time of assembly by a manufacturer and can be reliably held while the drawer is stored.

  The present invention provides a slide rail unit including a fixed rail attached to a main body of a structure and a moving rail that is slidably attached to the fixed rail and detachably holds a drawer, and is elastic to an end of the fixed rail. A locking notch groove for fitting the elastic body of the fixed rail when the moving rail slides is formed on the front end surface of the end of the moving rail. The pair of groove forming portions facing each other at the end of the moving rail to be formed constitutes a stopper portion and is set to a length larger than the thickness of the elastic body.

  This device can reduce the labor at the time of assembly at the manufacturer and can securely hold the drawer while being accommodated.

FIG. 1 is a schematic exploded perspective view of a slide rail unit. (Example) FIG. 2 is a schematic perspective view of the structure. (Example) FIG. 3 is an end view of the slide rail unit. (Example) FIG. 4 is a cross-sectional view illustrating the dimensional relationship between the elastic body of the first rail (fixed rail) and the groove forming portion at the end of the third rail (moving rail). (Example) FIG. 5 is a partially enlarged side view of the slide rail unit. (Example) FIG. 6 is a side view showing a state in which the groove forming portion of the third rail is in contact with the elastic body of the first rail. (Example) FIG. 7 is a side view showing a state in which the drawer is stored. (Example) FIG. 8 is a cross-sectional view showing a state in which the inner surface of the groove forming portion of the third rail is formed as an inclined surface inclined in a taper shape from the inner side to the tip surface. (Modification 1) FIG. 9 is a cross-sectional view showing a state in which the inner surface of the groove forming portion of the third rail is formed as a corrugated surface. (Modification 2) FIG. 10 is a side view of a part of a conventional slide rail unit. (Conventional example 2)

  This device realizes the purpose of reducing the labor at the time of assembly at the manufacturer and securely holding the drawer while storing it by increasing the working distance of the stopper portion by a predetermined length.

1 to 7 show an embodiment of the present invention.
As shown in FIG. 2, a structure 1 for storing drawers such as furniture and cabinets is formed in a box shape whose front is open, and includes a main body 2 and a plurality of upper and lower drawers 3 accommodated in the main body 2. Is provided.
The main body 2 includes left and right side walls 4 and 4 and a rear side rear wall 5.
The drawer 3 is formed in a box shape having an open top, and includes a bottom portion 6, a pair of side portions 7 and 7 that stand up from the bottom portion 6 and face each other, a rear portion 8 that is connected to the side portions 7 and 7, and a rear portion 8 and a front portion 9 connected to the side portions 7 and 7.

As shown in FIG. 2, the drawer 3 is slidably attached to the main body 2 by slide rail units 10 and 10 on both sides.
As shown in FIG. 1, the slide rail unit 10 includes a first rail 11 as a fixed rail that is attached to the inner surface of the side wall 4 of the main body 2, and a moving rail (intermediate moving rail) that is slidably attached to the first rail 11. ) And a third rail 13 as another moving rail that is slidably attached to the second rail 12 and holds the drawer 3 in a detachable manner. And slidably mounted in the front-rear direction.

As shown in FIG. 1 and FIG. 3, the first rail 11 is made of metal, is formed in a C shape in front view, and is bent with respect to the first rail body 14 and the first rail body 14. (Upper and lower end) side first guide portions 15 and 15 are provided, and the back surface of the first rail body 14 is fixed to the inner surface of the side wall 4 of the main body 2 by a fixing tool.
The first rail body 14 has a locking piece 16 bent inward at the center portion of the end on the heel side, and a pair of first stop pieces 17 and 17 at the end on the near side. It is bent. The locking piece 16 is formed at substantially the same height as the first guide portions 15 and 15.
The locking piece 16 is provided with a ring-shaped elastic body (catch material) 18 fitted therein. The elastic body 18 is made of, for example, a rubber material.
The elastic material 18 is provided to relieve the impact of the drawer 3 when the drawer 3 is pushed inward, and includes an insertion hole 19 through which the locking piece 16 is inserted, as shown in FIGS. 4 and 5. The first rail 11 has a thickness T in the longitudinal direction (horizontal direction) and a width W in the width direction (vertical direction) orthogonal to the longitudinal direction (horizontal direction) of the first rail 11.

The second rail 12 is made of metal and is formed in a C shape in a front view. The second rail body 20 and second guide portions on both ends (upper and lower ends) bent with respect to the second rail body 20. 21 and 21, which are smaller in width and height than the first rail 11.
In the second rail body 20, a pair of second stop pieces 22 and 22 are bent inward at the end on the heel side.

The third rail 13 is made of metal and is formed in an inverted C shape when viewed from the front. The third rail body 23 and third guides on both ends (upper and lower ends) that are bent with respect to the third rail body 23. The portions 24 and 24 are provided, and are smaller in width and height than the second rail 12.
A resin release lever 27 is attached to the inner surface of the third rail body 23 by an external attachment pin 26 inserted into the pin hole 25.

Between the first guide portions 15 and 15 of the first rail 11 and the second guide portions 21 and 21 of the second rail 12, resin-made first ball plates 28 and 28 are disposed.
A substantially C-shaped rail support member 29 is disposed between the first rail 11 and the second rail 12 at the end on the near side.
Further, a metal C-shaped second ball plate 30 is disposed between the second rail 12 and the third rail 13.
The second ball plate 30 includes a plate body 31 at a central portion and a pair of ball receiving portions 32 and 32 at both ends bent with respect to the plate body 31. The pair of ball receiving portions 32, 32 includes a plurality of metal balls 33, 33, and includes a second guide portion 21, 21 of the second rail 12 and a third guide portion 24, 24 of the third rail 13. Arranged between.

As shown in FIG. 1, the elastic body 18 of the first rail 11 is fitted into the tip surface of the end of the third rail body 23 of the third rail 13 when the third rail 13 slides. A locking notch 34 is formed. The locking cutout groove 34 has an opening on the tip side and is formed in a substantially rectangular space.
A stopper portion 35 is provided on the third rail 13. The stopper portion 35 is constituted by a pair of groove forming portions 36 and 36 at the end of the third rail 13 forming the locking cutout groove 34.
As shown in FIGS. 4 and 5, the pair of groove forming portions 36 and 36 is set to a length L larger than the thickness T of the elastic body 18 (T <L), and the inner surface is the width of the elastic body 18. The elastic body 18 is sandwiched between the side surfaces (upper and lower side surfaces) in the direction.
Here, the length L of the pair of groove forming portions 36, 36 constituting the stopper portion 35 is, for example, considerably larger than the length of the conventional stopper portion, and is about three times the thickness T of the elastic body 18, It is set to a predetermined length that forms a working distance of the stopper portion 35. The working distance of the stopper portion 35 is a predetermined distance capable of absorbing even if there is an error in the rail mounting position during assembly or a cushion for silencing (door stop). It should be noted that the length L of the pair of groove forming portions 36, 36 only needs to be larger than the thickness T of the elastic body 18, and can be changed as desired.
Further, as shown in FIG. 3, the groove forming portion 36 is formed in an L-shaped cross section, and includes side surface side elastic body holding pieces 36 </ b> A that are in contact with the width direction side surfaces (upper and lower side surfaces) of the elastic body 18, And an end face side elastic body holding piece 36B in contact with the end face.
Therefore, the elastic body 18, the locking notch groove 34, and the pair of groove forming portions 36, 36 constitute a catch mechanism 37 as shown in FIG.

As shown in FIG. 4, the side surface side elastic body holding pieces 36 </ b> A and 36 </ b> A of the pair of groove forming portions 36 and 36 at the end of the third rail 13 form inclined surfaces 38 and 38 on the inner surfaces of the tips. The distance H1 between the tip ends of the inclined surfaces 38 is substantially the same as the width W of the elastic body 18. On the other hand, the distance H2 between the inner ends of the inclined surfaces 38, 38 is set to be a predetermined smaller distance than the most advanced distance H1 of the inclined surfaces 38, 38.
Therefore, when the third rail 13 is pushed inward, the elastic body 18 is deformed by the inclined surfaces 38 and 38, and the locking notch groove 34 of the third rail 13 moves to the elastic body 18, and a pair of The groove forming portions 36 and 36 are configured to fit the elastic body 18.
The pair of groove forming portions 36 and 36 at the end of the third rail portion 13 are the same in the longitudinal direction, and are set to a length L such that the tip greatly exceeds the position of the elastic body 18.
The main body 2 is attached with biasing means (spring or the like) (not shown) for biasing the drawer 3 in the storage direction.

Next, the operation of this embodiment will be described.
As shown in FIG. 6, first, when the drawer 3 is pushed into the main body 2, a pair of groove forming portions 36 and 36 at the end of the third rail 13 are attached to the end of the first rail 11. It moves to the elastic body 18 side and comes into contact with the elastic body 18.
The tips of the inclined surfaces 38 and 38 of the side surface elastic body holding pieces 36A and 36A of the pair of groove forming portions 36 and 36 forming the locking notch groove 34 on the front end side of the third rail 13 are It contacts the side surface (upper and lower side surfaces) in the width direction.
When the drawer 3 further moves rearward, the inclined surfaces 38 and 38 of the side surface side elastic body holding pieces 36A and 36A of the pair of groove forming portions 36 and 36 are elastically deformed (reduced) while the elastic body 18 is sandwiched therebetween. Progress (see FIG. 7).
Thereafter, as shown in FIG. 7, the ends of the pair of groove forming portions 36, 36 at the end of the third rail 13 are disposed beyond the elastic body 18. In this case, the elastic body 18 is displaced from the inclined surfaces 38 and 38 of the side surface side elastic body holding pieces 36A and 36A of the pair of groove forming portions 36 and 36, and is elastically deformed (reduced) on the inner surface. Thereby, the drawer 3 is stored in the main body 2.

With the above-described structure, the pair of groove forming portions 36 and 36 at the end of the third rail 13 firmly hold the elastic body 18, and in this case, the pair of groove forming portions 36 and 36 is the thickness of the elastic body 18. Since the length L is set to be larger than the length T (T <L), the working distance between the pair of groove forming portions 36 and 36 constituting the stopper portion 35 may cause errors in the rail mounting position during assembly. The distance between the pair of groove forming portions 36 and 36 and the elastic body 18 is strengthened so that the engaged state is stabilized and the supporting force of the drawer 3 is increased. Even if a cushion for silencing is attached, when the drawer 3 is stored, the front face of the drawer 3 is not displaced, and it is possible to prevent the drawer 3 from rattling. it can. Further, as described above, since the working distance of the stopper portion 35 is large, delicate adjustment of the error of the rail mounting position at the manufacturer is unnecessary, and labor saving at the manufacturer can be achieved.
Further, it is only necessary to adjust the relationship between the thickness T of the elastic body 18 and the length L of the pair of groove forming portions 36, 36, thereby simplifying the structure and preventing the drawer 3 from rattling. it can.

In the present invention, the pair of groove forming portions 36, 36 constituting the stopper portion 35 can be configured as follows.
First, as shown in FIG. 8, the inner surfaces of the end surface side elastic body holding pieces 36A and 36A of the pair of groove forming portions 36 and 36 at the end portion of the third rail 13 are tapered from the front end surface side to the inside at an angle θ. It is formed as the inclined surfaces 39 and 39 inclined by. With such a structure, when the elastic body 18 changes over time or wears, the pair of groove forming portions 36 and 36 of the third rail 13 are gradually pushed in to cope with it, and the supporting force of the drawer 3 is kept constant. Thus, the service life can be extended.
Further, as shown in FIG. 9, the inner surfaces of the end surface side elastic body holding pieces 36 </ b> A and 36 </ b> A of the pair of groove forming portions 36 and 36 at the end of the third rail 13 are substantially the same distance as the width W of the elastic body 18. In this case, the corrugated surfaces 40 and 40 are formed with corrugated portions. With such a structure, when the elastic body 18 is aged or worn over time, the pair of groove forming portions 36 and 36 of the third rail 13 are pushed stepwise along the corrugated portions of the corrugated surfaces 40 and 40, By adjusting the contact area and appropriately adjusting the support force of the drawer 3, it is possible to effectively prevent the drawer 3 from rattling.

  The slide rail unit according to the present invention can be applied to various structures.

1 structure
2 body
3 drawers
10 Slide rail unit
11 First rail (fixed rail)
12 Second rail (intermediate movement rail)
13 Third rail (moving rail)
15 First guide portion of the first rail
18 Elastic body of the first rail
21 Second guide portion of second rail
24 Third guide portion of third rail
34 Third rail locking notch
35 Stopper
36/36 A pair of groove forming portions of the third rail
37 Catch mechanism
38 Inclined surface of groove forming part
L Length of groove forming part
T thickness of elastic body
W Elastic body width

Claims (2)

  In a slide rail unit comprising a fixed rail attached to the main body of the structure and a moving rail slidably attached to the fixed rail and detachably holding a drawer, an elastic body is attached to an end of the fixed rail, A lock notch groove for fitting the elastic body of the fixed rail when the moving rail slides is formed on the front end surface of the end of the moving rail, and the movement forming the lock notch groove A pair of groove forming portions facing each other at the end of the rail constitutes a stopper portion and is set to a length larger than the thickness of the elastic body.   2. The slide rail unit according to claim 1, wherein the pair of groove forming portions constituting the stopper portion is formed so that a distance of action of the stopper portion is increased by a predetermined length, and sandwiches the elastic body. .

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