阅读说明：本技术 用于装备有led灯带的搁架的安装装置和方法 (Mounting device and method for a shelf equipped with a LED strip ) 是由 B·什蓬高 于 2020-03-08 设计创作，主要内容包括：本发明描述了一种安装装置(30),用于构成搁架的框架的第一线性中空框架区段(12)和第二线性中空框架区段(10),其中框架设置有发光LED灯带(20)。该装置包括第三部分(72),第三部分包括尺寸与表面凹槽(22)的宽度相对应的平坦端面部(72),使得该装置能够插入至表面凹槽中以及填充表面凹槽的最接近第一区段的倾斜表面的部分。(The invention describes a mounting device (30) for a first linear hollow frame section (12) and a second linear hollow frame section (10) constituting a frame of a shelf, wherein the frame is provided with a light emitting LED strip (20). The device includes a third portion (72) including a flat end face portion (72) sized to correspond to the width of the surface groove (22) such that the device can be inserted into the surface groove and fill a portion of the surface groove closest to the inclined surface of the first section.)

1. Mounting device (30) for a first linear hollow frame section (12) and a second linear hollow frame section (10) of a frame constituting a shelf, wherein the frame is provided with a light emitting LED strip (20), the two linear sections:

extending along respective longitudinal axes (X, Y),

is provided with a coaxial inner cavity, an

Engageable at two complementary ends of the two linear sections along respective inclined surfaces at a first angle relative to one of the longitudinal axes, such that the first and second linear sections can be connected to form an angle of 90 degrees, an

At least a first section comprises a surface recess (22) in which the light-emitting LED strip (20) is mountable in a visually flush manner, the surface recess extending from the inclined surface towards a center of the section, wherein,

the mounting device includes a flat end face portion (72) sized to correspond to the width of the surface groove (22) such that the flat end face portion can be inserted into the surface groove and fill a portion of the surface groove closest to the inclined surface of the first section.

2. The device of claim 1, wherein the device comprises a rigid body comprised of:

a first portion (40) shaped and extending along an axis (Y2) so as to be coaxially insertable into the lumen of the first linear section at the respective inclined surface,

a second portion (46) shaped and extending along an axis (X2) so as to be coaxially insertable into the lumen of the second linear section at the respective inclined surface,

a third portion (72) comprising the flat end face portion (72).

3. The device of claim 2, wherein the third portion includes an abutment surface (74) that:

an angle relative to the axis of the second portion equal to the first angle, an

Adapted to abut the inclined surface at an end of the second linear section.

4. A device according to claim 2 or 3, wherein the third portion is integrally formed on/in the first portion.

5. A device according to claim 2 or 3 or 4, wherein the second and/or third portions are formed as members projecting from the first portion in an overhanging manner.

6. A device according to any one of the preceding claims 3 to 5, wherein the flat face portion and the abutment surface lie in two planes forming an angle greater than or equal to 90 degrees, in particular 120 degrees or 135 degrees.

7. A device according to any one of the preceding claims 3 to 6, wherein the abutment surface lies in a plane which is:

orthogonal to a plane including said respective axes of the first and second portions, an

Is inclined at 45 degrees to each of said respective axes of the first and second portions.

8. A device according to any one of the preceding claims 3 to 7, wherein the flat end face portion is constituted by a triangular shaped region, a first side of the triangle defining an edge between the flat end face portion and the abutment surface.

9. A device according to any of the preceding claims 3 to 8, wherein the first and third portions form a housing portion protruding from the remainder of the device.

10. An assembly method for a first hollow linear section (10) and a second hollow linear section (12) as defined in claim 1, wherein,

an element (30) is inserted into the first and second sections, a portion of the element including a flat end face (72), for example a triangular flat end face, the size of the flat end face corresponding to the width of the surface recess such that the flat end face can be inserted into the surface recess and fill a portion of the surface recess closest to the inclined surface of the first section.

Technical Field

The invention relates to a mounting device and a method for a shelf equipped with LED strips for furniture or shelving units.

Background

Furniture items or cabinets are known to be provided with shelves, often with built-in LED strips. LED light strips are typically surface mounted on the front section of the shelf frame to illuminate down and help the user when looking inside the cabinet.

The LED strip is placed inside a linear seat made in the front section and extends along the length of the section. The ends of the LED strip are cut at 45 degrees to match the side sections of the frame at the edges where the ends and the side sections of the frame meet each other.

This type of assembly has several disadvantages.

First, it is difficult to perform a 45 degree cutting operation on the end of the LED strip, which places demands on accuracy. It is more difficult to cut (typically metal or plastic) the section bar at 45 degrees to create a socket for the LED strip. All of these operations involve manufacturing errors, material waste and labor hours.

In addition, there are electrical safety issues. The conductive cables that power the LEDs run inside the section bars and reach the LEDs with a small radius of curvature. The risk lies in: the cables can be stripped at sharp corners or burrs of the section bars and short circuits can occur at the metal of the rack.

Finally, removing the LED strip from its seat is very labor intensive, requiring tools, effort and experience. Wedging the LED strip inside the inner corner of the section bar and mating at 45 degrees both makes removal more difficult.

Disclosure of Invention

The main object of the present invention is to improve the prior art, the invention being defined by the appended claims, wherein the dependent claims define advantageous variants.

Another object is to provide an improved mounting device and method for a shelf equipped with LED strips for furniture or shelving units.

Another object is to provide an improved shelf of furniture or shelving units equipped with LED strips.

The mounting device is intended for a first and a second linear hollow frame section constituting the frame of a shelf, wherein the frame is equipped with a light emitting LED strip, said two linear sections:

extending along a respective longitudinal axis thereof,

is provided with coaxial inner cavities, an

Respective (e.g. flat) at two complementary ends of the two linear sections at a first angle (e.g. 45 degrees) with respect to one of said longitudinal axes

The inclined surfaces engage such that the first and second linear sections can be connected to form an angle of 90 degrees, an

At least the first section comprises a surface recess in which the light-emitting LED strip can be mounted in a visually flush manner, the surface recess extending from the inclined surface towards the centre of the section.

The mounting means comprises a flat end face portion dimensioned to correspond to the width of the surface recess so as to be snugly inserted into the surface recess and to fill a portion of the surface recess closest to the inclined surface of the first section.

Thanks to this mounting means, the LED strip may have a rectangular plane, i.e. without beveled or bevelled ends, and said flat end face occupies the empty space created between one end of the LED strip and the joining edge of the two sections. The preparation and mounting operations of the above-described LED strip are therefore greatly simplified.

In a preferred variant, it is preferable for the engagement of said flat end face portion that the mounting means comprise a rigid body consisting of:

a first portion shaped and extending along an axis so as to be coaxially insertable into the lumen of the first linear section at the respective inclined surface,

a second portion shaped and extending along an axis so as to be coaxially insertable into the lumen of the second linear section at the respective inclined surface,

a third portion comprising the flat end face portion.

In a preferred variant, the third portion comprises an abutment surface which:

an angle relative to the axis of the second portion equal to the first angle, an

Adapted to engage against the inclined surface (preferably by fitting) at the end of the second linear section.

The abutment surface is advantageous in that it facilitates coupling and alignment between the mounting device and the second linear section. Furthermore, the abutment surface simplifies the construction of the mounting device, since the abutment surface establishes a base for the flat end face.

In a preferred variant, the third portion is integrally formed on/in the first portion, which simplifies the shape and manufacture of the mounting device.

In a preferred variant, the second portion and/or the third portion are formed as members projecting from the first portion in an overhanging manner, which simplifies the shape and manufacture of the mounting device.

In a preferred variant, for structural simplicity and improved adaptation to a linear section having a 45 degree end (i.e. in the case of a first angle of 45 degrees), the flat face portion is adjacent to the abutment surface, in particular the flat face portion and the abutment surface lie in two planes forming an angle greater than or equal to 90 degrees, in particular 120 degrees or 135 degrees.

In a preferred variant, said flat end surface portion lies in a plane forming an angle with respect to a plane parallel to the plane comprising said respective axes of the first and second portions, said angle being between 30 and 60 degrees, in particular between 40 and 50 degrees.

In a preferred variant, said wherein the abutment surface lies in a plane which is:

orthogonal to a plane including said respective axes of the first and second portions, an

Is inclined at 45 degrees to each of said respective axes of the first and second portions.

This configuration improves the adaptation of the abutment surface to the end of the linear section.

In a preferred variant, the flat end face portion is constituted by a triangular shaped area, wherein a first side of the triangle defines an edge between the flat end face portion and the abutment surface. In particular, the triangle is a right triangle and the first side is the hypotenuse of the triangle, which hypotenuse defines the edge between the flat end face portion and the abutment surface.

Preferably, the second side of the triangle is parallel to the edge of the surface recess and/or the axis of the second portion to better bend into the empty space.

Preferably, the third side of the triangle is orthogonal to the longitudinal axis of the surface groove to better bend into the empty space.

The triangular shape of the flat end face is well suited to folding into the empty space in the surface groove between the end of the LED strip and the joining edge of the linear section.

In a preferred variant, said flat end face comprises a recess along the sides of the triangle, which is advantageous for inserting the tip of a screwdriver and for removing the LED strip. In particular, a recess is formed on the third side of the triangle.

In particular, preferred structures include: the first and third portions form a housing portion protruding from the remainder of the device. Thus, the first and second portions are thin and can be easily inserted into the associated linear section.

In particular, to simplify the construction, the housing portion comprises three walls:

two walls lying in an imaginary plane having a common straight line parallel to the axis of the first section, the two walls having a common edge parallel to the axis of the first section, an

A third wall adjacent to at least one of the other two walls and lying in a plane inclined at an angle equal to the first angle with respect to the common straight line, so as to be parallel to the inclined surface.

In particular, one of the two walls of the housing portion is constituted by said flat surface and the third wall is constituted by said abutment surface.

In order to facilitate the insertion of the first portion and/or the second portion into the respective section, it is preferred that the first portion has a substantially constant cross section considered on a section plane orthogonal to the axis of the above-mentioned portions.

To facilitate insertion of the third portion into the opening of the surface recess, it is preferred that the third portion has a substantially constant cross-section in a tangential plane orthogonal to the axis of the first portion.

In order to facilitate bending of the power supply cable for the LED strip, preferably the first portion and the third portion or said housing portion are fitted to the rest of the device via an open channel. In particular, the portions connecting the first portion and the third portion or the housing portion to the rest of the device present rounded and/or curved profile edges.

Another aspect of the invention is a first assembly method for a first and a second hollow linear section as defined in the foregoing, wherein,

the mounting means as defined in one or each of the variants hereinbefore are inserted into the first and second sections.

Another aspect of the invention is a second assembly method for the first and second hollow linear sections as defined in the foregoing, wherein,

inserting an element into the first and second sections, a portion of the element including a flat end face portion sized to correspond to a width of the surface groove so as to snugly fit into the surface groove and fill a portion of the surface groove closest to the inclined surface of the first section.

Both the first and second methods may include the previously defined variations for mounting the device.

Drawings

The advantages of the invention will be more apparent from the following description of a preferred example of a system with reference to the accompanying drawings, in which:

figure 1 shows a three-dimensional view of the front edge of a shelf for furniture or shelving units;

figure 2 shows a partial plan view of the edge of figure 1;

FIGS. 3-4 show the planes III-III and IV-IV respectively according to FIG. 2, and an isolation

A vertical cross-sectional view of the member of (a);

fig. 5-14 show three-dimensional views of different spatial orientations of the members of the shelf.

Detailed Description

In the drawings, like reference numerals designate identical or conceptually similar components, and elements are described as in a state of use. Some reference numerals have been omitted in order not to make the drawings dense.

Fig. 1 shows the edge of a shelf 10 comprising a frame formed by a front section 12, a bottom section (not shown) and two side sections 14. The sections 12, 14 are hollow tubular pieces, extending/elongated along respective axes X, Y, and having ends cut at 45 degrees to their axes to form inclined surfaces S (see fig. 1 and 2) that can be fitted together.

The sections 12, 14 may be assembled to form a generally rectangular or square frame. The object support plane 16 of the shelf 10 is in a horizontal plane in the use position.

The front section 12 is provided with a seat or surface recess 22, and the LED strip 20 may be mounted flush along the surface inside the seat or surface recess 22. The power supply circuit of the LED strip 20 is indicated at 20X and the power cable is indicated at 100.

The LED strip 20 has an end (fig. 1 and 2) with a wall at the end of the end orthogonal to the longitudinal axis L of the LED strip 20.

The ends of the LED strip 20 are each joined to the side section 14 (surface S) by a portion of the member 30, the member 30 being mounted partially inside the front section 12, partially inside the side section 14, across the 45 degree joint between the sections 12, 14 (fig. 2). That is, a portion of the member 30 is bent at a portion of the surface groove 22 closest to the surface S, connecting the end of the LED strip 20 to this portion.

The member 30 is mounted in the shelf 10 in two mirror image examples, one for each end of the light strip 20 and for the respective oblique junction between the section 12 and the two side sections 14. For the sake of brevity, the left side member will be described, herein indicated at 30 alone, and is clearly visible in fig. 5-12.

Member 30 includes two portions joined at edge 90: a portion 40 coaxially insertable inside the front section 12 and a portion 46 coaxially insertable in the side section 14.

Portion 40 extends along the Y2 axis, while portion 46 extends along the X2 axis. The Y2 axis and the X2 axis are parallel to the longitudinal axis X, Y of the sections 12, 14, respectively. Thus, the two portions 40, 46 extend along two directions orthogonal to each other (the Y2 axis and the X2 axis being orthogonal).

The portions 40, 46 are each a single part and are included in the member 30 as one integral piece. However, while advantageous, the member 30 or portions 40, 46 need not be made as one integral piece.

Portion 40 is centrally formed by a flat surface 58 extending longitudinally along the Y2 axis, with wall 52 extending orthogonally from flat surface 58, with optional protruding teeth 54 at the ends parallel to flat surface 58. A second wall 56 extends from the planar surface 58 on the opposite side with respect to the wall 52, with the ends of the wall 56 lying in a plane parallel to and offset from the wall 52. Preferably, the wall 52 and the flat surface 58 are connected by a section 57 having a curved cross section.

The flat surface 58 along the Y2 axis and toward the corner 90 is wider than the base of the wall 52 so that the end of the wall 52 is before the flat surface 58 reaches the corner 90. Then, there is a free portion 80 of the flat surface 58 at the corner 90, and the portion 46 may be connected to the free portion 80.

The cross-section of the portion 46 is defined by two walls 60, 70 arranged in an approximately V-shape, wherein the apex of the V forms an angle of 90 degrees. The walls 70, 60 lie in a plane orthogonal to the planes of the walls 56 and 52.

The wall 70 belongs to a flat end face 72 having a size corresponding to the width of the surface groove 20 (see fig. 1) to fill a section of the groove 22 closest to the inclined surface S of the section 12.

The wall 60 belongs to the surface 62. The surface 62 and the planar end face portion 72 lie substantially in planes that are orthogonal to each other.

Portion 46 includes an optional abutment surface 74 that is angled relative to the Y2 axis equal to the angle between surface S and the X axis. Thus, the abutment surface 74 is adapted to abut the inclined surface S at the end of the segment 14.

The flat end face portion 72 is constituted by an area shaped as a right triangle, wherein a first side of the triangle defines an edge between the flat end face portion 72 and the abutment surface 74. The second side of the triangle defines an edge between the flat end face portion 72 and the abutment surface 74.

In a preferred variant, the flat end face portion comprises a recess 76 along one side of the triangle.

Surface 62, flat end face 72 and abutment surface 74 form a housing portion that can be both inserted into section 12 and placed against the angled end S of section 14.

Wires 100 are shown in fig. 7 and 8 to indicate how the wires are laid inside member 30 to pass through section 14 and provide power to LED strip 20.

Note (see, e.g., fig. 7) how the cable 100 is bent 90 degrees without encountering a cutting surface and without having too small a radius of curvature. In particular, the edges of the wall 52 and/or the section 57 are rounded, with a curved profile, so that the radius of curvature is as large as possible for the cable 100.