CN103405051B - Arc-shaped slide rail - Google Patents

Abstract

The invention discloses a kind of arc-shaped slide rail, it is characterised in that including: the first arc track, the second arc track, roller bearing, rebound device and antivibrator；Wherein, the first arc track, for having the section bar of certain curvature arc-shaped bend, the concave structure of this section bar, the both sides of this concave structure are bent to form arc track inwardly；Second arc track, for being set in outside the first arc track, the section bar consistent with the curvature of this first arc track, the concave structure of this section bar, the both sides of this concave structure bend outwards formation arc track, arrange described roller bearing in the arc track phase stitching portion of its arc track with described first arc track.Using the drawer of the present invention, can move along round and smooth warp rail when carrying out pull, when being completely pulled out, drawer front sinks to making drawer box tilt, even if drawer is positioned at higher position, is also completely in the visual line of sight of user, and article of taking are the most convenient and swift.

Description

Arc-shaped sliding rail

Technical Field

The invention relates to the field of furniture, in particular to an arc-shaped sliding rail.

Background

In modern homes, the sliding rail structure is widely applied to various furniture, and the drawer is typical furniture applied to the sliding rail. The good storage space utilization of the drawer brings excellent convenience to the drawer.

At present, for most families, the wall cabinet, built-in cupboard in kitchen etc. only adopt opening modes such as tilt-up door, vertical hinged door, sliding door, and the mounted position is higher, especially to the space in the top layer cabinet in the cabinet, it is extremely inconvenient to use, thereby cause many families can only utilize the wall cabinet, the article that the built-in cupboard deposited unusually, or vacant intra-cabinet space, or give up the wall cabinet, the built-in cupboard product, article originally placed in the cabinet can only occupy the finite space in other cabinets such as other ground cabinets, even still occupy the limited operating space of platform, so will lead to indoor storage space greatly reduced.

In the prior art, the drawer is not higher than the shoulder height of a user due to the unique horizontal moving and pulling mode, once the mounting position of the drawer is too high, the drawer is very inconvenient to take out or put in objects from the drawer, and the sight of the user is shielded by the drawer, so that the inside of the drawer is difficult to observe, and the drawer is only limited to be mounted at the middle-lower part of a floor cabinet, a half-height cabinet or a high cabinet.

Therefore, how to solve the problem that the drawer cannot be applied to the furniture cabinet with a higher position becomes a technical problem to be solved urgently.

Disclosure of Invention

The invention mainly aims to provide an arc-shaped sliding rail to solve the problem that a drawer cannot be applied to a furniture cabinet with a higher position.

In order to solve the above problems, the present invention provides an arc-shaped sliding rail, comprising: the device comprises a first arc-shaped track, a second arc-shaped track, a rolling shaft, a rebounder and a damper; wherein,

the first arc-shaped track is a strip section with a certain curvature and an arc-shaped bend, the strip section is of a concave structure, and two sides of the concave structure bend inwards to form the arc-shaped track;

the second arc-shaped track is a strip-shaped material which is sleeved on the outer side of the first arc-shaped track and has the same curvature with the first arc-shaped track, the strip-shaped material is of a concave structure, two sides of the concave structure are bent outwards to form the arc-shaped track, and the rolling shaft is arranged at the joint of the arc-shaped track and the arc-shaped track of the first arc-shaped track;

the cylindrical pin is arranged in the second arc-shaped track and corresponds to the rebounder;

the rolling shaft is a strip-shaped material provided with a plurality of balls, the length of the strip-shaped material is shorter than that of the first arc-shaped track and the second arc-shaped track, and the strip-shaped material is arranged at the joint between the arc-shaped tracks of the first arc-shaped track and the second arc-shaped track;

the rebounder is a rebounding structure arranged in a concave structure at one end, which is not spliced with the second arc-shaped track, of the first arc-shaped track after the arc-shaped slide rail is unfolded;

the damper is a rubber block in an oval or square structure and is arranged in the concave structure at the other end of the first arc-shaped track, which is opposite to the position where the rebounder is arranged;

wherein, this rebounder includes: the positioning block, the tension spring, the damping device, the auxiliary collision block, the main collision block, the sliding chute and the sliding chute hook; wherein,

the positioning block is arranged at one end of the concave structure of the first arc-shaped track and is connected with the tension spring and the damping device;

the main collision block and the auxiliary collision block are arranged in the concave structure of the first arc-shaped track after being connected with each other, and the auxiliary collision block is connected with the tension spring and the damping device, wherein a clamping groove is formed in the main collision block and used for hooking the cylindrical pin.

One end of the sliding chute is provided with a sliding chute hook, the other end of the sliding chute is connected with the main collision block, the main collision block pulls the auxiliary collision block and the tension spring, and the auxiliary collision block and the tension spring are fixedly clamped with the sliding chute hook through moving from one end of the sliding chute to the other end of the sliding chute.

Further, wherein the damper is further a spring damper, an air damper and/or a dielectric damper made of a material with good cushioning properties.

Further, wherein, the orbital both ends of arc of first arc track and second arc track are provided with the crashproof pad in the arc.

Further, wherein the first arc-shaped rail is further a first arc-shaped rail made of steel, iron, aluminum and/or any pure metal or alloy with good plasticity.

Further, wherein the second arc-shaped rail is further made of steel, iron, aluminum and/or any pure metal or alloy with good plasticity.

In order to solve the above problem, the present invention further provides an arc-shaped sliding rail, which comprises: the device comprises a first arc-shaped rail, a second arc-shaped rail, a rebounder and a damper; wherein,

the first arc-shaped track is a strip section with a certain curvature and an arc-shaped bend, the strip section is of a concave structure, and two sides of the concave structure bend inwards to form the arc-shaped track;

the second arc-shaped track is a strip-shaped material which is sleeved on the outer side of the first arc-shaped track and has the same curvature with the first arc-shaped track, the strip-shaped material is of a concave structure, two sides of the concave structure are bent inwards to form the arc-shaped track, and the arc-shaped track is matched with and spliced with the arc-shaped track of the first arc-shaped track;

the cylindrical pin is arranged in the second arc-shaped track and corresponds to the rebounder;

the rebounder is a rebounding structure arranged in a concave structure at one end, which is not spliced with the second arc-shaped track, of the first arc-shaped track after the arc-shaped slide rail is unfolded;

the damper is a rubber block in an oval or square structure and is arranged in the concave structure at the other end of the first arc-shaped track, which is opposite to the position where the rebounder is arranged;

wherein, this rebounder includes: the positioning block, the tension spring, the damping device, the auxiliary collision block, the main collision block, the sliding chute and the sliding chute hook; wherein,

the positioning block is arranged at one end of the concave structure of the first arc-shaped track and is connected with the tension spring and the damping device;

the main collision block and the auxiliary collision block are arranged in the concave structure of the first arc-shaped track after being connected with each other, and the auxiliary collision block is connected with the tension spring and the damping device, wherein a clamping groove is formed in the main collision block and used for hooking the cylindrical pin.

One end of the sliding chute is provided with a sliding chute hook, the other end of the sliding chute is connected with the main collision block, the main collision block pulls the auxiliary collision block and the tension spring, and the auxiliary collision block and the tension spring are fixedly clamped with the sliding chute hook through moving from one end of the sliding chute to the other end of the sliding chute.

Further, wherein the damper is further a spring damper, an air damper and/or a dielectric damper made of a material with good cushioning properties.

Further, wherein, the orbital both ends of arc of first arc track and second arc track are provided with the crashproof pad in the arc.

Further, wherein the first arc-shaped rail is further a first arc-shaped rail made of steel, iron, aluminum and/or any pure metal or alloy with good plasticity.

Further, wherein the second arc-shaped rail is further made of steel, iron, aluminum and/or any pure metal or alloy with good plasticity.

Compared with the prior art, the arc-shaped sliding rail provided by the invention achieves the following effects:

1) by adopting the drawer, the drawer can move along the smooth curved track when being pulled and pulled, and when being completely pulled out, the front end of the drawer sinks to enable the drawer box to incline, so that the drawer is completely positioned in the sight range of a user even if the drawer is positioned at a higher position, and the drawer is extremely convenient and quick to take articles;

2) the drawer can be arranged in various indoor cabinets, so that the utilization rate of the limited storage space in the cabinet is improved, and the whole indoor storage space is further increased.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:

fig. 1 is a structural diagram of an arc-shaped slide rail S1 according to an embodiment of the present invention;

fig. 2 is a schematic view illustrating the installation of the arc-shaped sliding rail S1 applied to a cabinet drawer according to an embodiment of the present invention.

Fig. 3 is an enlarged schematic view of a specific structure of the rebounder 104 in the arc-shaped slide rail S1 according to the first embodiment of the present invention.

Detailed Description

As used in the specification and in the claims, certain terms are used to refer to particular components. As one skilled in the art will appreciate, manufacturers may refer to a component by different names. This specification and claims do not intend to distinguish between components that differ in name but not function. In the following description and in the claims, the terms "include" and "comprise" are used in an open-ended fashion, and thus should be interpreted to mean "include, but not limited to. "substantially" means within an acceptable error range, within which a person skilled in the art can solve the technical problem to substantially achieve the technical result. The scope of the present invention is defined by the appended claims.

The present invention will be described in further detail below with reference to the accompanying drawings, but the present invention is not limited thereto.

As shown in fig. 1, a specific structure of the arc-shaped sliding rail S1 according to a first embodiment of the present invention is that the arc-shaped sliding rail S1 includes: a first arcuate track 101, a second arcuate track 102, a roller 103, a rebounder 104, a damper 105, and a cylindrical pin 106; wherein,

the first arc-shaped track 101 is a curved strip section with a certain curvature (the curvature value is generally set according to the length of a standard cabinet), the strip section is of a concave structure, two sides of the concave structure are curved inwards to form an arc-shaped track, and two ends of the arc-shaped track are provided with anti-collision pads in an arc shape.

The second arc-shaped track 102 is a strip-shaped material which is sleeved outside the first arc-shaped track 101 and has the same curvature with the first arc-shaped track 101, the strip-shaped material is of a concave structure, two sides of the concave structure are bent outwards to form an arc-shaped track, two ends of the arc-shaped track are provided with anti-collision pads in an arc shape, and the rolling shaft 103 is arranged at the joint of the arc-shaped track and the arc-shaped track of the first arc-shaped track 101.

The cylindrical pin 106 is disposed in the second arc-shaped track 102 at a position corresponding to the resilient member 104.

The rolling shaft 103 is a strip-shaped material on which a plurality of balls are arranged, the length of the strip-shaped material is shorter than that of the first arc-shaped track 101 and the second arc-shaped track 102, and the strip-shaped material is arranged at the joint between the arc-shaped tracks of the first arc-shaped track 101 and the second arc-shaped track 102.

The rebounder 104 is a rebounding structure arranged inside a concave structure at one end of the first arc-shaped track 101, which is not spliced with the second arc-shaped track 102 after the arc-shaped slide rail S1 is unfolded;

the damper 105, which is a rubber block having an oval or square structure, is disposed inside the concave structure of the first arc-shaped rail 101 at the other end opposite to the position where the resilient member 104 is disposed.

In a first embodiment, as shown in fig. 3, the rebounder 104 includes: a positioning block 301, a tension spring 302, a damping device 303, an auxiliary collision block 304, a main collision block 305, a chute 306 and a chute hook 307; wherein,

the positioning block 301 is arranged at one end of the concave structure of the first arc-shaped track 101, and is connected with the tension spring 302 and the damping device 303;

the main collision block 305 and the auxiliary collision block 304 are connected with each other, then are arranged in the concave structure of the first arc-shaped track 101, and are connected with the tension spring 302 and the damping device 303 through the auxiliary collision block 304, wherein the main collision block 305 is provided with a clamping groove which is used for hooking the cylindrical pin 106.

A chute hook 307 is arranged at one end of the chute 306, the other end of the chute 306 is connected with the main collision block 305, and the main collision block 305 pulls the auxiliary collision block 304 and the tension spring 302 to be clamped and fixed with the chute hook 307 by moving from one end to the other end of the chute 306.

What needs to be further explained here is:

1. in the drawer provided with the arc-shaped sliding rail S1 of the present invention, when the drawer is pulled out, the cylindrical pin 106 disposed on the second arc-shaped rail 102 drives the main striking block 305 of the first arc-shaped rail 101 and simultaneously pulls the auxiliary striking block 304 and the tension spring 302, and when the main striking block 305 runs into the sliding slot hook 307 of the first arc-shaped rail 101 to rotate and is clamped into the slot for fixing, that is, the second arc-shaped rail 102 (i.e., the drawer mounted with the second arc-shaped rail 102) is restrained by the tension spring 302 to continue to move forward to trigger the damper 105 to be pulled out gently and slowly to the maximum position.

2. When the drawer provided with the arc-shaped sliding rail S1 of the present invention is closed, the cylinder pin 106 of the second arc-shaped rail 102 moves to the position of the sliding groove hook 307 of the first arc-shaped rail 101, enters the slot provided on the main catch block 305, and rotates to return to start the auxiliary catch block 304 and the tension spring 302, i.e., the elastic force of the tension spring 302 pulls the auxiliary catch block 304 and the main catch block 305, and the cylinder pin 106 hooking the second arc-shaped rail 102 in the slot on the main catch block 305 pulls the second arc-shaped rail 102 (i.e., the drawer mounted with the second arc-shaped rail 102) back, and contacts the damping device 303 to slowly and gently return.

In addition, the crash pads on the first and second arcuate rails 101 and 102 are mainly used to prevent vibration and noise caused by collision between the first and second arcuate rails 101 and 102. The damper 105 and also the damping means 303 may be spring dampers, air dampers and/or dielectric dampers made of a material having good damping properties.

Of course, two sides of the concave structure on the second arc-shaped track 102 are bent inwards to form an arc-shaped track, and are directly spliced with the arc-shaped track of the first arc-shaped track 101, and the bending curvatures of the arc-shaped tracks of the first arc-shaped track 101 and the second arc-shaped track 102 are consistent. This has the advantage that the roller 103 is omitted, resulting in a better saving of manufacturing costs.

In this embodiment, the first and second arcuate rails 101 and 102 may be made of steel, iron, aluminum, and/or any pure metal or alloy with good ductility.

It should be noted that, in the present embodiment, the structure of the arc-shaped track of the first arc-shaped track 101 and the second arc-shaped track 102 is only a preferred structure of the present embodiment, and does not constitute a limitation to the present invention, and the arc-shaped track of the first arc-shaped track 101 and the second arc-shaped track 102 may also adopt a double-groove-shaped track, a multi-groove-shaped track, a roller-free track/ball-free track, and/or any arc-shaped track with good sliding performance.

Fig. 2 shows a specific application of the curved slide rail S1 according to the first embodiment of the present invention.

In fig. 2, the arc-shaped sliding rail S1 is applied to a drawer on a wall cupboard, the first arc-shaped rail 101 is fixed on a wall of the wall cupboard, the second arc-shaped rail 102 is fixed on an outer side of a drawer side of the drawer, the second arc-shaped rail 102 and the first arc-shaped rail 101 are matched and sleeved with each other, and the drawer can be drawn and pulled in a sinking manner, so that the drawer is pulled out obliquely.

At the moment when the drawer is completely pulled out, the anti-collision pad of the second arc-shaped rail 102 impacts the damper 105, the damper 105 performs buffering and shock absorption and blocks the movement of the drawer, so that the drawer is slowly clamped, and vibration and noise caused by hard collision are avoided; when the drawer is returned, the resilient means 104 acts on the second curved track 102, which automatically gently returns the drawer and prevents the drawer from suddenly sliding out.

When the sunken drawer in the hanging cabinet is completely pulled open, the inclined drawer box is completely positioned in the sight of a user and can be reached by hands, and the object taking is extremely convenient and quick.

The arc-shaped sliding rail can be arranged at the position needing to slide, such as a drawer, a table top, a dining table, a box body and the like.

The arc-shaped slide rail can change the stroke of the whole slide rail by changing the positions of the limiting parts at the two ends of the slide rail, and the purpose of expanding or reducing the stroke of the slide rail is achieved.

Compared with the prior art, the arc-shaped sliding rail provided by the invention achieves the following effects:

1) by adopting the drawer, the drawer can move along the smooth curved track when being pulled and pulled, and when being completely pulled out, the front end of the drawer sinks to enable the drawer box to incline, so that the drawer is completely positioned in the sight range of a user even if the drawer is positioned at a higher position, and the drawer is extremely convenient and quick to take articles;

2) the drawer can be arranged in various indoor cabinets, so that the utilization rate of the limited storage space in the cabinet is improved, and the whole indoor storage space is further increased.

The above description is only an example of the present invention, and is not intended to limit the present invention, and it is obvious to those skilled in the art that various modifications and variations can be made in the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. An arcuate slide rail, comprising: the device comprises a first arc-shaped track, a second arc-shaped track, a rolling shaft, a rebounder, a damper and a cylindrical pin; wherein,

the first arc-shaped track is a strip section with a certain curvature and an arc-shaped bend, the strip section is of a concave structure, and two sides of the concave structure bend inwards to form the arc-shaped track;

the second arc-shaped track is a strip-shaped material which is sleeved on the outer side of the first arc-shaped track and has the same curvature with the first arc-shaped track, the strip-shaped material is of a concave structure, two sides of the concave structure are bent outwards to form the arc-shaped track, and the rolling shaft is arranged at the joint of the arc-shaped track and the arc-shaped track of the first arc-shaped track;

the cylindrical pin is arranged in the second arc-shaped track and corresponds to the rebounder;

the rolling shaft is a strip-shaped material provided with a plurality of balls, the length of the strip-shaped material is shorter than that of the first arc-shaped track and the second arc-shaped track, and the strip-shaped material is arranged at the joint between the arc-shaped tracks of the first arc-shaped track and the second arc-shaped track;

the rebounder is a rebounding structure arranged in a concave structure at one end, which is not spliced with the second arc-shaped track, of the first arc-shaped track after the arc-shaped slide rail is unfolded;

the damper is a rubber block in an oval or square structure and is arranged in the concave structure at the other end of the first arc-shaped track, which is opposite to the position where the rebounder is arranged;

wherein, this rebounder includes: the positioning block, the tension spring, the damping device, the auxiliary collision block, the main collision block, the sliding chute and the sliding chute hook; wherein,

the positioning block is arranged at one end of the concave structure of the first arc-shaped track and is connected with the tension spring and the damping device;

the main collision block and the auxiliary collision block are arranged in the concave structure of the first arc-shaped track after being connected with each other, and are connected with the tension spring and the damping device through the auxiliary collision block, wherein the main collision block is provided with a clamping groove which is used for hooking the cylindrical pin;

one end of the sliding chute is provided with a sliding chute hook, the other end of the sliding chute is connected with the main collision block, the main collision block pulls the auxiliary collision block and the tension spring, and the auxiliary collision block and the tension spring are fixedly clamped with the sliding chute hook through moving from one end of the sliding chute to the other end of the sliding chute.

2. The arcuate rail of claim 1, wherein said damper is a dielectric damper of a material having good damping properties.

3. The arcuate rail of claim 1, wherein the arcuate rails of said first and second arcuate rails have crash pads disposed within the arcuate path at each end thereof.

4. The arcuate rail of claim 1, wherein said first arcuate rail is further comprised of a first arcuate rail made of any of a pure metal or alloy having good ductility.

5. The arcuate rail of claim 1, wherein said second arcuate rail is further comprised of a second arcuate rail made of any of a pure metal or alloy having good ductility.

6. An arcuate slide rail, comprising: the device comprises a first arc-shaped track, a second arc-shaped track, a rebounder, a damper and a cylindrical pin; wherein,

the first arc-shaped track is a strip section with a certain curvature and an arc-shaped bend, the strip section is of a concave structure, and two sides of the concave structure bend inwards to form the arc-shaped track;

the second arc-shaped track is a strip-shaped material which is sleeved on the outer side of the first arc-shaped track and has the same curvature with the first arc-shaped track, the strip-shaped material is of a concave structure, two sides of the concave structure are bent inwards to form the arc-shaped track, and the arc-shaped track is matched with and spliced with the arc-shaped track of the first arc-shaped track;

the cylindrical pin is arranged in the second arc-shaped track and corresponds to the rebounder;

the rebounder is a rebounding structure arranged in a concave structure at one end, which is not spliced with the second arc-shaped track, of the first arc-shaped track after the arc-shaped slide rail is unfolded;

the damper is a rubber block in an oval or square structure and is arranged in the concave structure at the other end of the first arc-shaped track, which is opposite to the position where the rebounder is arranged;

wherein, this rebounder includes: the positioning block, the tension spring, the damping device, the auxiliary collision block, the main collision block, the sliding chute and the sliding chute hook; wherein,

the positioning block is arranged at one end of the concave structure of the first arc-shaped track and is connected with the tension spring and the damping device;

the main collision block and the auxiliary collision block are arranged in the concave structure of the first arc-shaped track after being connected with each other, and are connected with the tension spring and the damping device through the auxiliary collision block, wherein the main collision block is provided with a clamping groove which is used for hooking the cylindrical pin;

one end of the sliding chute is provided with a sliding chute hook, the other end of the sliding chute is connected with the main collision block, the main collision block pulls the auxiliary collision block and the tension spring, and the auxiliary collision block and the tension spring are fixedly clamped with the sliding chute hook through moving from one end of the sliding chute to the other end of the sliding chute.

7. The arcuate rail of claim 6, wherein said damper is a dielectric damper of a material having good damping properties.

8. The arcuate rail of claim 6, wherein the arcuate rails of said first and second arcuate rails have crash pads disposed within the arcuate path at each end thereof.

9. The arcuate rail of claim 6, wherein said first arcuate rail is further comprised of a first arcuate rail made of any of a pure metal or alloy having good ductility.

10. The arcuate rail of claim 6, wherein said second arcuate rail is further comprised of a second arcuate rail made of any of a pure metal or alloy having good ductility.