RU220618U1 - CONNECTOR FOR FURNITURE FRAME CONNECTION UNIT - Google Patents

Abstract

The utility model relates to furniture fittings and methods of connecting them. The technical result - providing the possibility of creating universal furniture fittings, which allows you to create various connection units for cabinet furniture frames, is achieved due to the fact that the connector of the furniture frame connection unit is distinguished by the fact that it is made in the form of a three-dimensional figure, the flat side walls of which are made with the possibility of mounting to them connecting elements and are made corresponding in shape to the mating profiles, while in the said side walls of the connector there are holes for placing pins of the connecting element in them with the possibility of providing a fixed connection with the connecting element and a threaded hole for detachable connection of the connecting element with the connector. 5 salary f-ly, 22 ill.

Description

The utility model relates to furniture fittings and methods of connecting them [A47B 95/00, A47B 96/00, F16B 12/00, F16B 12/02, F16B 12/04, F16B 12/06].

Known from the prior art is an EXTERNAL FRAME OF A Sliding Wardrobe [CN212280472 (U), published: 01/05/2021], including at least one horizontal frame, at least two vertical frames and corner brackets, characterized in that the horizontal frame and vertical frame are hollow profiles, the corner bracket is connected to the vertical frame by a bolt connection through the corner bracket, wherein the axis of the bolt is parallel to the horizontal frame, and the corner bracket is built into the internal cavity at the end of the horizontal frame and is connected to the side wall of the horizontal frame by a second bolt connection.

Also known is the CORNER BRACKET [KR20020021309 (A), published: 03/20/2002], designed to firmly connect the corner bracket with a steel profile and increase the durability of the corner bracket by connecting steel profiles in at least two axial directions, while the corner bracket has , at least one threaded connection, the threaded connection assembly has a through hole equipped with a thread, combined with a threaded hole formed in the center at the end of the steel profile, one end of the bracket is extended for insertion into another steel profile in the direction opposite to the direction of the threaded connection assembly , a screw hole is formed on the extension support assembly and the steel profile is aligned with the screw through the hole.

The disadvantage of these analogs is the limited functionality of the described connection system, formed by brackets and profiles, which allows you to create only flat corner connections of profiles.

Also known is the CORNER CONNECTION AND CONNECTOR WITH CORNER PROTECTOR [CN207762085 (U), published: 08.24.2018], characterized in that it consists of a corner connecting socket and a corner protective sleeve, which snaps onto the corner connecting socket, the connecting socket is a three-part corner , which consists of three surfaces perpendicular to each other, each of which is provided with a mounting hole, and the corner joint seat is provided with a slot for the corner protector, the corner protector is equipped with a cutting bar and snaps into place with the corner connecting socket through the cutting bar, the corner protector covers the corner connecting socket.

This analogue, in fact, has the same drawback as the previous analogues, namely the limited functionality of the connection system, only unlike the above analogues, the system described in this analogue allows you to create only flat and spatial corner connections and only rectangular profiles .

The closest in technical essence is the PORSA connection system, including square profiles and MASTER/PRIMO fasteners [http://porsatorg.prcomm-express.ru/catalog/torgovie-sistemy/truby-kvadratnogo-secheniya/], the fasteners of which are in various implementation options are made in the form of a structure of two mutually orthogonal profile elements to form a corner connection, three profile elements running along the conventional coordinate axes X, Y, Z, conjugate at the origin of coordinates to form a spatial corner connection, and five profile elements running along conventional coordinate axes X, Y, Z, where profile elements passing along the conventional axes X and Y are interconnected at the point of their mutual intersection, forming the first four profile elements extending in four directions, and the fifth profile element is formed passing along the conventional axis Z and conjugate its origin with the point of mutual intersection of the first four profile elements.

The main technical problem of the prototype is the high material consumption of fasteners due to their significant weight and dimensions, as well as the low functionality of the connection system due to the lack of universal properties of the fastening element, which is why in order to form various options for profile connection units it is necessary to use various fasteners manufactured according to individual standard sizes for each system separately.

The purpose of a utility model is to eliminate the shortcomings of analogues and the prototype.

The technical result of the utility model is to provide the ability to create universal furniture fittings that allow you to create various joints for cabinet furniture frames.

The specified technical result is achieved due to the fact that the connector of the furniture frame connection unit is made in the form of a three-dimensional figure, the flat side walls of which are made with the possibility of mounting connecting elements to them and are made corresponding in shape to the mating profiles, while in the mentioned side walls of the connector there are holes for placing pins of the connecting element in them with the possibility of providing a fixed connection with the connecting element and a threaded hole for detachable connection of the connecting element with the connector.

In particular, the connector is made in the form of a rectangular parallelepiped.

In particular, the connector is made cubic.

In particular, the connector is made in the shape of a quarter of a sphere.

In particular, the connector is made in the shape of a quarter cylinder.

In particular, the connector is made hollow.

Brief description of the drawings.

Figure 1 shows a rectangular profile in cross section.

Figure 2 shows a cross-section of a profile in the form of a quadrant.

Figure 3 shows a cross-section of a rectangular profile with one spaced shelf.

Figure 4 shows a cross-section of a profile in the form of a quadrant with one spaced shelf.

Figure 5 shows a cross-section of a rectangular profile with two spaced shelves.

Figure 6 shows a cross-section of a profile in the form of a quadrant with two spaced shelves.

Figure 7 shows a general front view of the connecting element.

FIG. 8 shows a rear view of the connecting member.

Figure 9 shows a general view of the cubic connector.

Figure 10 shows a general view of the connector in the shape of a quarter of a sphere.

Figure 11 shows a general view of a quarter-cylinder shaped connector.

Figure 12 shows a general view of the connection of the connecting elements and the quarter-spherical connector to form a flat corner connection assembly.

Figure 13 shows a general view of the connection of the connecting elements and the cubic connector to form a flat corner connection node.

Figure 14 shows a general view of the connection of the connecting elements and the quarter-cylinder connector to form a flat corner connection assembly.

Figure 15 shows a general view of the connection of the connecting elements and the connector in the shape of a quarter of a sphere to form a spatial corner connection node.

Figure 16 shows a general view of the connection of the connecting elements and the cubic connector to form a spatial corner connection node.

Figure 17 shows a general view of the connection of the connecting elements and a connector in the shape of a quarter cylinder to form a spatial corner connection unit.

Figure 18 shows a general view of the connection of connecting elements and connectors to form a T-shaped connection unit.

Figure 19 shows a general view of the connection of connecting elements and connectors to form a linear connection node.

Figure 20 shows a general view of the connection of connecting elements and connectors to form multi-path connection nodes.

Figure 21 shows an image of one of the variants of a spatial corner connection node.

Figure 22 shows an image of a T-junction without a connector.

The figures indicate: 1 - profile, 2 - connecting element, 3 - connector, 4 - spaced shelf, 5 - support plate, 6 - grooves, 7 - platform, 8 - threaded holes, 9 - notches, 10 - pins, 11 - cutout, 12 - holes.

Implementation of a utility model.

The utility model is a set of furniture fittings designed to be connected into various load-bearing units. The main purpose of the fittings and connection units formed with its help is to be used primarily in cabinet furniture as the main load-bearing units of its structure.

The connection unit contains at least a pair of profiles 1 connected to each other orthogonally, a connecting element 2 embedded inside the mentioned profiles 1, and a connector 3 for connecting the mentioned profiles 1 by installing connecting elements 2 to them.

Profile 1 is a closed figure and can be a rectangle in cross section (see Fig. 1, 3, 5), a quadrant (see Fig. 2, 4, 6) or any other shape, with at least two lateral the walls of the mentioned profile 1 must be oriented at right angles to each other along a common edge, and the width of each of the mentioned walls must correspond to the size of the corresponding flange of the connecting element 2, laid inside the profile 1, for which the connecting element 2 is made L-shaped in cross section ( see Fig.7), the shelves of which are placed orthogonally to each other. At least, a support plate 5 is mounted at one of the ends of the connecting element 2. The flanges of the connecting element 2 can be made of different widths, but the main requirement is that the outer width of each of the side flanges of the connecting element 2 corresponds to the inner width of the corresponding side wall of the profile 1.

In the embodiment of the profile 1 in the form of a quadrant, the two side walls of the said profile 1 are located at right angles to each other, and the third side flange connects the edges of the mentioned orthogonal side flanges along a circular arc.

In the center in each of the side flanges of the connecting element 2 along its longitudinal axis of symmetry there are through threaded holes 8, and in the side wall of the profile 1 there are holes 12 corresponding to the mentioned threaded holes 8.

In one embodiment, grooves 6 are made in the side flanges of the connecting element 2 on the outside along their edges and along the common edge on one or both sides of the threaded hole 8 (see Fig. 8). The grooves 6 are designed in such a way that the threaded hole 8 is placed on the platform 7, the plane of which coincides with the plane of the flange of the mentioned element 2. The grooves 6 are designed to form stiffening ribs of the connecting element 2 and reduce its material consumption. Additionally, to reduce the material consumption of the connecting element 2, recesses 9 can be made in its side flanges in the surfaces facing each other.

Outside the support plate 5 of the connecting element 2, on the diagonal connecting the opposite edges of the side flanges of the mentioned element 2, orthogonally spaced pins 10 are mounted, made mainly of a cylindrical or conical shape. In the center of the support plate 5 along the bisector drawn from the common edge connecting the side flanges of the mentioned element 2, there is a through hole or an open oblong cutout 11. The connecting element 2 is made in the form of a single part. The pin 10 can be made of solid metal or made in a different way, or from another material that ensures reliability and tightness of the connection.

As mentioned above, the external dimensions of the connecting element 2 in cross section are made corresponding to the internal dimensions of the profile 1 at the location of the connecting element with the possibility of a tight, tight connection between the connecting element 2 and profile 1. To reduce the applied force when placing the connecting element 2 inside the profile 1 the inner edges of the side flanges of the mentioned element 2 are made with a flat or radial chamfer, and the radius of the radial chamfer mainly corresponds to the radius of the side wall of the profile 1, made in the form of a quadrant. The chamfer allows you to place the connecting element 2 inside the profile 1 while maintaining their tight connection.

In one embodiment, at least on the outside of one of the side walls of the profile 1, made orthogonal to the adjacent one, an orthogonally spaced shelf 4 is mounted (see Figs. 3, 4). The spaced shelves 4 can also be mounted to both side walls of the profile 1, orthogonal to each other, along their common edge (see Figs. 5, 6). The number of spaced shelves 4 on each of the profile walls may also differ. The spaced shelves 4 and profile 1 are made at the same time. The said spaced shelves 4 are designed to be placed on or between them in the embodiment of profiles 1 with several spaced shelves 4 on one side wall of the profile 1 of flat sheet materials used in furniture as walls, shelves, bases, etc.

Connector 3 is a three-dimensional figure, predominantly hollow, having a cubic shape (see Fig. 9) for connecting rectangular profiles 1 (a special case - square profile 1), the shape of a rectangular parallelepiped for connecting rectangular profiles 1, the shape of a quarter cylinder (see Fig. Fig. 11) for connecting profiles 1 in the shape of a quadrant and/or rectangular profiles 1, the shape of a quarter sphere (see Fig. 10) for connecting profiles 1 in the shape of a quadrant. The main purpose of connector 3, as can be seen from the description, is to connect the connection of profiles 1 of both the same and different sections to each other, and for this, the shape of the side wall of connector 3 must correspond to the shape of profile 1. Therefore, based on the possible shapes of profile 1, the shape of connector 3 may also be different.

At least in two orthogonally located side walls of the connector 3 on the diagonal connecting the opposite corners of the walls, holes 12 are made to accommodate the pins 10 of the connecting element 2 in these holes when connecting the connecting element 2 and the connector 3, and between the mentioned holes 12, into which pins 10, a threaded hole 8 is made for detachable connection of the connecting element 2 and connector 3 through the corresponding hole or slot 11 of the connecting element 2. Also, holes can be made in the opposite, parallel oriented walls of the connector 3 if it is necessary to lengthen the profile, as well as in combined, and in opposite walls of connector 3 to form a T-shaped or other multi-beam connection node. Connector 3 is made in the form of a single part. The connector 3 can be made of metal (aluminum alloy), plastic (ABS, etc.), wood or another material that ensures reliable retention of the pin 10 in the holes 12 for docking and fastening the profile 1.

The connection of profile 1 with connecting element 2, connecting element 2 with connector 3 is made with a detachable screw connection.

The described fittings are used to form the frame of furniture, which is subsequently filled (tables, cabinets, beds, any specialized furniture, etc.) with sheet materials (sheet metal, MDF, chipboard, fiberboard, OSB, plywood, laminated plastics, composite multilayer boards and etc.) or can be left without filling (shelves, table legs, cabinets, beds, etc.).

We will consider examples of how to use fittings in various connection nodes.

To form a flat corner connection point between two profiles 1 (see Figs. 12-14), for example, for a table top or cabinet door, the types of profiles 1 that will form the connection point are first selected.

For example, to form the front frame, it is preferable to choose profile 1, made in the shape of a quadrant with the possibility of eliminating sharp corners of furniture and providing better aesthetics and ergonomics. To form the rear part of the frame, a predominantly rectangular profile 1 is selected. Next, based on the type of profile 1, a connector 3 is selected, made in the form of a quarter sphere for quadrant-shaped profiles 1 (see Fig. 12), a cubic connector 3 for rectangular profiles 1 (see Fig. 13), connector 3 in the form of a quarter cylinder for the simultaneous connection of a rectangular profile 1 and a quadrant-shaped profile 1 (see Fig. 14). First, one connecting element 2 is mounted to the connector 3, inserting the pins 10 of the connecting element into the holes 12 of the connector, and fixing the connection using a screw mounted through the slot 11 of the connecting element 2 into the threaded hole 8 of the connector 3. Similarly, mount the second connecting element 2 into the adjacent wall of the connector 3. Profile 1 is mounted on one connecting element 2 of the assembled unit and their connection is fixed with a screw through hole 12 in profile 1 and threaded hole 8 in the side flange of connecting element 2. Mount the second profile in a similar way to the second free connecting element 2. Thus a flat corner joint is obtained.

To form a spatial corner junction of three profiles 1 (see Fig. 15-17), which should be located perpendicular to each other, for example, to form a frame corner of furniture (cabinet, cabinet, drawer, etc.), three are already used profile 1, three connecting elements 2 and one connector 3 in the shape of a quarter sphere (see Fig. 15) for connecting profiles 1 in the shape of a quadrant, cubic connector 3 (see Fig. 16) for connecting rectangular profiles 1 or connector 3 in the shape quarter cylinder (see Fig. 17) for the simultaneous connection of two rectangular profiles 1 and one profile 1 in the shape of a quadrant. All operations are performed similarly to the example described above.

To form a T-shaped connection unit (see Fig. 18), three profiles 1, three connecting elements 2 and one connector 3 are used, while as connector 3 either a cubic connector 3 is already used to connect rectangular profiles 1, or connector 3 in in the shape of a quarter cylinder to connect two quadrant-shaped profiles 1 and one rectangular profile 1.

To form a linear connection unit (see Fig. 19), two profiles 1, two connecting elements 2 and one connector 3 are used, while a cubic connector 3 is used as a connector 3 to connect rectangular profiles 1, or a quarter-cylinder-shaped connector 3 is used to connection of two profiles 1 in the form of a quadrant.

Figure 20 shows various options for using connectors 3 and connecting elements 2 to form multi-path connection nodes. All operations are performed similarly to the examples described above.

As a visual example, Fig. 21 shows an image of a spatial corner connection using a connector 3 in the shape of a quarter of a sphere, three connecting elements 2 and profiles 1 in the shape of a quadrant.

Figure 22 shows a variant of a T-shaped connection node for profiles 1 using one connecting element 2 and without a connector, which also ensures the versatility of the connection node.

The technical result - providing the possibility of creating universal furniture fittings, which allows you to create various connection nodes for cabinet furniture frames, is achieved through the use of only three elements in the connection node - profile 1, connecting element 2 and connector 3, where their connection is determined by the number of rays of the connection node, their mutual placement in space and the shape of the profile 1. Having a set of identical connecting elements 2 and only three options for connectors 3, it is possible to provide a huge number of options for connection nodes using different profiles 1, which ensures the versatility of the described furniture fittings.

Claims (6)

1. A connector for a furniture frame connection unit, characterized in that it is made in the form of a three-dimensional figure, the flat side walls of which are made with the possibility of mounting connecting elements to them and are made corresponding in shape to the mating profiles, while holes are made in the said side walls of the connector for placement in them pins of the connecting element with the ability to provide a fixed connection with the connecting element and a threaded hole for detachable connection of the connecting element with the connector. 2. The connector according to claim 1, characterized in that it is made in the form of a rectangular parallelepiped. 3. The connector according to claim 1, characterized in that it is cubic. 4. The connector according to claim 1, characterized in that it is made in the shape of a quarter of a sphere. 5. The connector according to claim 1, characterized in that it is made in the shape of a quarter of a cylinder. 6. The connector according to claim 1, characterized in that it is hollow.