1. Field of the Invention
The present invention relates to a slide rail (or slide rail unit) for smoothly guiding a pulling or drawing motion of an object, such as drawer, to be pulled out from a body structure such as furniture, desk or like.
2. Related Art
A slide rail (unit) is known as a member which is attached to, for example, a drawer of a furniture, desk or like so as to allow the drawer to be easily and smoothly opened or closed. Such slide rail is disclosed, for example, in Japanese Patent Laid-open (KOKAI) Publication No. SHO 51-048046. This Japanese Patent Laid-open (KOKAI) Publication No. SHO 51-048046 corresponds to DE 2540656, GB 1512069, and U.S. Pat. No. 3,966,273. The disclosure of U.S. Pat. No. 3,966,273 is incorporated by reference in its entirety The slide rail is generally composed of an outer rail (member) and an inner rail (member) which is fitted to the outer rail. A number of balls are disposed between these outer and inner rails. In general, the outer rail is attached to a body structure of furniture, for example, and the inner rail is attached to the drawer. Further, it is to be noted that the slide rail unit is mentioned herein as slide rail which is generally composed of the outer rail and the inner rail. In this structure, when an external force is applied to the inner rail, the balls roll between the inner and outer rails, and the inner rail is therefore slid with respect to the outer rail. Further, in order to make large a stroke of the inner rail, it is necessary to design the inner rail so as to have a length as long as that of the outer rail.
Generally, in the conventional slide rail (unit) of the structure mentioned above, both the inner and outer rails have linear shape, and the drawer is hence pulled out linearly. In such linear structure, when the drawer is pulled out linearly, there may cause a case that the drawer collides with an obstacle or the drawer cannot be easily pulled out, thus being inconvenient.
It is therefore an object of the present invention to substantially eliminate defects or drawbacks encountered in the prior art as mentioned above, and to provide a slide rail (unit) having a sliding locus of a drawer different from that of conventional structure having a linear sliding locus.
This and the other objects can be achieved according to the present invention by providing a slide rail unit for guiding an object to be pulled out from a body in which the object is slidably accommodated, comprising:
a body side rail provided for the body; and
an object side rail provided for the object to be pulled out to be slidable relative to the body side rail,
the body side rail and the object side rail each having a portion bent in a circular-arc shape so that the object is pulled out along a circular-arc locus.
According to the present invention, an object to be pulled out can be pulled out along a circular arc locus, for example, in a vertical plane or in a horizontal plane, based on a method by which a slide rail is mounted on a body.
In a preferred embodiment of this aspect, the slide rail unit comprises:
an outer rail constituting one of the body side rail and the object side rail for the object to be pulled out, the outer rail being composed of a bottom wall section extending in circular-arc shape in a longitudinal direction thereof and a pair of side wall sections formed, in a bent form, on both side ends in the short length direction of the bottom wall section so as to extend in circular-arc shape in the longitudinal direction thereof to thereby form a rolling member rolling portion;
an inner rail constituting another one of the body side rail and the object side rail so as to be fitted to the outer rail, the inner rail being composed of a bottom wall section extending in parallel to the bottom wall section of the outer rail and a pair of side wall sections formed, in a bent form, on both side ends in the short length direction of the bottom wall section so as to extend in circular-arc shape in the longitudinal direction thereof to thereby form a rolling member rolling portion; and
a number of rolling members disposed between the rolling member rolling portion of the outer rail and the rolling member rolling portion of the inner rail.
The outer rail may be bent in the circular-arc shape in a virtual plane including the bottom wall section of the outer rail, and the inner rail is bent in the circular-arc shape in a virtual plane including the bottom wall section of the inner rail.
The outer rail may be bent in the circular-arc shape in a virtual plane perpendicular to the bottom wall section of the outer rail, and the inner rail is bent in the circular-arc shape in a virtual plane perpendicular to the bottom wall section of the inner rail.
The inner rail has a cross sectional shape corresponding to an inverted shape for a cross section of the outer rail, and the inner rail is fitted to the outer rail to thereby define a rolling member rolling path therebetween.
The rolling members may be balls.
Each of the body side rail and the object side rail may have a linear portion continuous to the circular-arc portion.
The circular-arc locus may have a predetermined radius of curvature.
Further, it is to be noted that the slide rail will be bent in two ways or manners and, that is, one may be called “sword or horizontally bent form” and the other one may be called “belly or vertically bent form”. In the “sword or horizontally bent form”, the outer rail is bent in the circular-arc shape in a virtual plane including the bottom wall section of the outer rail, and, also, the inner rail is bent in the circular-arc shape in a virtual plane including the bottom wall section of the inner rail. On the other hand, in the “belly or vertically bent form”, the outer rail is bent in the circular-arc shape in a virtual plane perpendicular to the plane including the bottom wall section of the outer rail, and, also, the inner rail is bent in the circular-arc shape in a virtual plane perpendicular to the plane including the bottom wall section of the inner rail.
According to the structure of the slide rail unit mentioned above, the object to be pulled out, such as drawer for furniture, desk or like, can be pulled out along the circular-arc locus, not a conventional linear locus. Therefore, it becomes possible to attach the slide rail to the body in which the object is slidably accommodated in various ways, and for example, the drawer can be pulled out along the circular-arc locus in the vertical plane or in the horizontal plane, thus being advantageous.
The nature and further characteristic features of the present invention will be made more clear from the following descriptions made with reference to the accompanying drawings.
In the accompanying drawings:
Preferred embodiments of a slide rail (unit) according to the present invention will be described hereunder with reference to the accompanying drawings.
First, with reference to
The outer rail 1 has a channel-shaped cross section, and is composed of a bottom wall section 1a extending in a longitudinal direction, and a pair of side wall sections 1b bent at both sides in a short length (width) side direction of the bottom wall section 1a. Each of the paired side wall sections 1b has a cross section, in form of circular-arc, protruding outward. Inside wall surfaces, opposing to each other, of the paired side wall sections 1b are formed with ball rolling portions 5, as rolling member rolling portions, extending in the longitudinal direction of the outer rail 1.
In the illustrated embodiment, the outer rail 1 is bent so as to provide a circular-arc shape having a constant radius of curvature in a virtual plane (shown plane) including the bottom wall section 1a, this bending state being called “sword or horizontally bent form”. In other wards, the outer rail 1 is bent around an axis perpendicular to the bottom wall section 1a. Accordingly, the paired side wall sections 1b opposing to each other are bent or curved in form of circular-arc shape with a constant interval being maintained, and the paired ball rolling grooves 5, opposing to each other, are also curved so as to provide the circular-arc shape with a constant interval being maintained. The bottom wall section 1a of the outer rail 1 is formed with a plurality of holes 7 (see
The outer rail 1 has one longitudinal end at which a rail stopper 8 is formed as shown in
The outer rail 1 has the other longitudinal end portion at which lead balls 11 are arranged, the lead balls 11 being formed of resin material or the like for guiding the inner rail 2 pulled out from the outer rail 1. These lead balls 11 are fitted in the ball rolling portions 5 formed to the outer rail 1, and supported by brackets 12 fixed to the inside portions of the outer rail 1 so as not to be slid with respect to the outer rail 1.
The inner rail 2 having a groove shape corresponding to the inverted shape of the grooved cross section of the outer rail 1 is fitted to the inside portion of the outer rail 1 to be slidable with respect thereto. The inner rail 2 has a longitudinal length which is substantially the same as that of the outer rail 1.
The inner rail 2 has a groove shaped cross section, and is composed of a bottom wall section 2a extending in its longitudinal direction, and a pair of sidewall section 2b bent at both sides in a short length (width) side direction of the bottom wall section 2a. Each of the paired side wall sections 2b has a cross section, in form of circular-arc, protruding inward. Outside wall surfaces, opposing to each other, of the paired side wall sections 2b are formed with ball rolling portions 13, as rolling member rolling portions, extending in the longitudinal direction of the inner rail 2.
In the illustrated embodiment, the inner rail 2 is bent so as to provide a circular-arc shape having a constant radius of curvature in a virtual plane including the bottom wall section 2a so as to provide the so-called “sword or horizontally bent form”. Accordingly, the paired sidewall sections 2b opposing to each other are also bent or curved in form of circular-arc shape with a constant interval being maintained, and the paired ball rolling portions 13, opposing to each other, are also bent so as to provide the curved circular-arc shape with a constant interval being maintained. The bottom wall section 2a of the inner rail 2 is formed with a plurality of holes 15 (see
The inner rail 2 has one longitudinal end, corresponding to one end of the outer rail 1 at which the rail stopper 8 is formed, at which a claw 16 is formed so as to project towards the bottom wall section 1a of the outer rail 1. The claw 16 is engaged with the rail stopper 8 to stop the movement of the inner rail 2 in its pull-in state as shown in
A plurality of balls 3 as rolling members are disposed between the ball rolling portions 13 formed at the side wall sections 2b of the inner rail 2 and the ball rolling portions 13 formed at the side wall sections 1b of the outer rail 1. A series of these balls 3 are held to be rolled by the retainer 10.
The retainer 10 has a thin thickness, and is composed of a bottom wall section 10a extending in the longitudinal direction thereof, and a pair of arm sections 10b bent at both end portions of the bottom wall section 10a in the short length(width) direction. A series of balls 3 are held between the paired arm sections 10b connected to the bottom wall section 10a and the ball rolling portions 5 of the outer rail 1, so that the balls 3 are not came off therefrom even if the inner rail 2 is disassembled from the outer rail 1. The bottom wall section 10a of the retainer 10 is provided with an inverted groove-shaped portion 18 extending in the longitudinal direction of the retainer 10, and connecting portions 20 connecting the sidewall portions 19 of the inverted groove-shaped portion 18 and the arm-shaped side portions 10b, respectively. This inverted groove-shaped portion 18 is provided for the purpose of preventing interference of the retainer 10 with a screw head or the like of a screw at a time when the outer rail 1 is secured to the drawer or the body therefor by using the screw or the like, or for ensuring the strength of the retainer 10. The inverted groove-shaped portion 18 is formed with holes 21 at a constant pitch in the longitudinal direction for easy press working of the retainer 10.
As mentioned hereinbefore, a number of balls 3 are held by the arm-shaped side wall sections 10b of the retainer 10 so as to be capable of rolling in the longitudinal direction thereof with equal intervals. One and the other arm-shaped side wall sections 10b, 10b of the retainer 10 are arranged in parallel to each other so as to be perpendicular to the inverted groove-shaped portion 18. The arm-shaped side wall sections 10b are formed with openings for receiving the ball 3, and hence, the opening has a diameter slightly smaller than that of the ball 3.
Cutouts 22 are formed, between adjacent balls 3, 3, to the arm-shaped side wall sections 10b and the connecting portions 20. Slits 23 are formed to be continuous to the cutouts 22 so as to extend in the width(short length) direction of the inverted groove portion 18 to a portion passing through one of the side wall portions 19 of the inverted groove portion 18 and the bottom portion thereof. These slits 23 are formed so as to easily bend the retainer 10 in a circular-arc shape to accord with the circular-arc curve of the outer rail 1. Namely, when it is intended to bend the retainer 10 in a plane including the bottom portion of the inverted groove-shaped portion 18, a large sectional secondary moment is caused and, hence, the retainer 10 cannot be easily bent. However, in the structure formed with such slits 23, only a portion of each of the side wall portions 19 of the inverted groove portion 18 and the connecting portion 20 are bent, so that the bending working can be easily done.
Further, it may be possible to manufacture a retainer 10 having a curved structure in conformity with the curve of the outer rail 1 through a press working without forming such slits 23. The retainer 10 may be formed of a resin material through a resin molding process. In addition, the shape of the retainer 10 is not limited to such shape, but the retainer 10 may be formed so as to provide various shapes as far as it is provided with holding function of ball 3.
When an external force is applied to the inner rail 2 from its longitudinal direction with the outer rail 1 being fixed, the balls 3 roll, and the inner rail 2 slides in its longitudinal direction with respect to the outer rail 1. In this moment, the balls 3 roll in the space between the ball rolling portion 5 of the outer rail 1 and the ball rolling portion 13 of the inner rail 2 to move by a distance corresponding to half of displacement of the inner rail 2. The retainer 10 also moves by a distance equal to a displacement of the ball 3. On the other hand, the lead ball 11 maintains its constant position on the outer rail 1 even if the inner rail 2 is slid with respect to the outer rail 1. Thus, the inner rail 2 is slid with respect to the outer rail 1 while being held by the lead ball 11 and the ball 3 held by the retainer 10.
These inner and outer rails 2 and 1 can be slid with respect to each other in the longitudinal direction thereof. Further, since these outer and inner rails 1 and 2 are bent in a circular-arc shape, the inner rail 2 (hence, the drawer) is also moved so as to describe the circular arc locus. Therefore, when, for example, the slide rail having the “sword or horizontally bent form” is mounted to the portion between the side surface of the drawer and the side surface of the body, the drawer is moved so as to describe the circular-arc locus (trace or path) in the vertical plane.
The second embodiment differs from the first embodiment in the curved structure of the outer and inner rails 1 and 2, and the other structures are substantially the same as those of the first embodiment, so that the like reference numerals are added to the corresponding portions, and explanations thereof are omitted herein. In this second embodiment, the outer rail 1 is bent in the circular-arc shape in a virtual plane perpendicular to the bottom wall section 1a of the outer rail 1 (i.e., in a plane shown in
The retainer 10 is bent, in accordance with the bent condition of the outer rail 1, in a plane perpendicular to the bottom portion of the inverted groove-shaped portion 18 of the retainer 10. With this structure, in comparison with the retainer 10 of the first embodiment mentioned above, the secondary moment of the section of the retainer 10 becomes small. In this matter, it may be possible to form a slit 23 extending in the short longitudinal (width) direction, to one side wall section 19 of the inverted groove shape portion 18, to be continuous to the cutout 22 in the connection portion 20 of the retainer 10. In this case, it is also possible to change the material, shape and so on of the retainer 10 in the same manner as the first embodiment.
In this second embodiment, the inner rail 2 and the outer rail 1 are also both slidable in their longitudinal directions. Since both these outer and inner rails 1 and 2 are bent so as to provide the circular-arc shape, the locus of the inner rail 2 is also circular-arc shape, as well as the locus of the drawer. For example, in a case in which a slide rail, of the “belly or vertically bent form”, is attached to a portion between the side portion of the drawer and the side portion of the body, the drawer describes the circular-arc locus (trace or path) in the horizontal plane.
In the followings, a manufacturing method of the outer rail 1 and the inner rail 2 of the slide rail unit of the structure mentioned above will be described.
First, an outer rail 1 and an inner rail 2 preliminarily formed so as to have linear shape are prepared. In this stage of the manufacture, the outer and inner rails 1 and 2 had already been formed so as to provide a groove shaped section. Next, a plurality of rolls 31, 32, and 33, which are arranged so that the axes thereof are in parallel to each other, are prepared, and the linear outer rail 1 is rolled by reciprocally passing, by several times, through a gap between the roll 33 and roll 32 and, then, a gap between the roll 33 and 31 by rotation of the rolls 31,32, and 33, as shown in
The outer rail 1 and the inner rail 2 both have a groove-shaped sectional view, and there is a fear that the side wall sections 1b and 2b of these rails 1 and 2 may be bent inward at the time when both the rails are bent by using the bending roll. If the side wall sections 1b and 2b are bent inward, there may also cause a fear that it is difficult to locate the balls 3, 3, . . . , 3 between the ball rolling portion 5 of the side wall section 1b of the outer rail 1 and the ball rolling portion 13 of the side wall section 2b of the inner rail 2. In order to obviate such fear, an inclusion or intervening member having a shape according with the shape of the groove of the outer rail 1 is fitted to the outer rail 1 so as to suppress the reduction of the distance between the paired side wall sections 1b thereof at the time when passing through the gaps between the rolls 33 and 32 and the rolls 33 and 31. In the like manner, an inclusion or intervening member having a shape according with the shape of the groove of the inner rail 2 is fitted to the inner rail 2 so as to suppress the reduction of the distance between the paired side wall sections 2b thereof at the time when passing through the gaps between the rolls 33 and 32 and the rolls 33 and 31. These inclusions or intervening members are formed of soft resin material such as polyvinyl chloride. These inclusions or intervening members can be also bent by using the bending roll in the same manner as the outer rail 1 and the inner rail 2.
As described above, by using such bending roll, the outer and inner rails 1, 2 having various sizes and bending radius of curvatures can be manufactured.
The outer rail 1 and the inner rail 2 may be manufactured by a method other than the method mentioned hereinbefore such as, for example, a press working, which will be suitable for the manufacture of a rail having a predetermined length and predetermined radius of curvature.
The slide rail (unit) of the first and second embodiment mentioned above can be used in the following manner.
Further, it is to be noted that the present invention is not limited to the described embodiments, and many various changes and modifications may be made without departing from the scopes of the appended claims. For example, the drawer of the structure mentioned above of the present invention may be applied, other than the furniture, to toner exchanging mechanism of a copy machine, open/close mechanism of an emergency door or any other mechanisms for object which are to be pulled out. Rollers may be utilized in place of balls. Furthermore, relatively movable outer and inner rail combination structure may be also applied with no rolling members interposed between the outer and inner rails.
It should be understood that various alternatives to the embodiments of the invention described herein may be employed in practicing the invention. Thus, it is intended that the following claims define the scope of the invention and that methods and structures within the scope of these claims and their equivalents be covered thereby.
The entire disclosure of Japanese Patent Application No. 2003-197393 filed on Jul. 15, 2003 including the specification, claims, drawings and abstract is incorporated herein by reference in its entirety.
Number | Date | Country | Kind |
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P2003-197393 | Jul 2003 | JP | national |
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Number | Date | Country | |
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20050012440 A1 | Jan 2005 | US |