DE102010019159A1 - Miter joint for connecting two elements of furniture under predetermined angle, has unit that is equipped in direction of profile in one of elements - Google Patents

Abstract

The miter joint has a unit that is equipped in the direction of the profile in one of the elements (A). The positions of the elements are defined to each other in the direction of the profile with the unit. The unit is an anchor, a spring, a bolt or a fitting part.

Description

The invention relates to a miter joint of two elements. In particular, the invention relates to a compound of plate-shaped elements. With the miter joint, the elements can be connected together so that the plate-shaped elements are connected to each other at a predetermined angle. The (elongated) plate-like elements abut each other so that the miter thereby represents the bisector of the angle at which the elements are connected. It is desirable that the outwardly visible joint line at which the two elements collide be visible only as a straight line along the bisecting line (in extension of the plane at which the two joined elements meet). The miter connection of the elements can be glued, but can also be tack-free. In the latter case, the miter connection can connect the elements in such a way that the miter connection can also be released non-destructively and the elements can then be connected again.

The miter joint can connect two elements such that the elements are orthogonal to each other. However, it may also be formed so that both parts are connected at a different predetermined angle.

The invention relates inter alia to the joining of two solid elements. At least one of the elements can be wholly or at least partially from z. As wood, plastic, wood material, and / or be a composite of these and / or other materials.

State of the art

The problem of connecting two components to the miter with a visible line running along the bisecting line of the angle formed by the connected elements has long been known and has already been solved in a variety of ways.

It is Z. For example, it is known to attach two components to each other by simple butt bonding to the miter (eg in picture frames). A disadvantage of such bonding, however, is that the components can be arranged poorly to each other during bonding. The compression pressures required for bonding can be very difficult / cumbersome applied in the required height, without causing the components change their position to each other.

In order to avoid a change in position of the components, it is also known to install in a bonding surface various tools that are to prevent slippage / displacement of the components to each other. Such aids are z. As dowels that are orthogonal to the adhesive surface introduced, or rectangular strip of material (springs) in the same arrangement. Also, "angle dowels", i. H. Connecting elements, which consist of two interconnected at an appropriate angle cylinders used, or there are, for example, "angle springs", which are also connected at a suitable angle interconnected strips of material used. All of these elements have the disadvantage that the resultant of the lines of action of the forces applied during the bonding do not run parallel to or in the axis (s) of these aids, ie the components in relation to each other in the production-required air (in a game ) of the tools. This air is a small gap between the tool and the component to be bonded, which is necessary to bring the tool and the adhesive in the intended positions.

Therefore miter joints have been developed to remedy this problem. These are so-called gluing profiles ( 1 ) which are formed in the mitres. The shape of the glued profile allows a frictional connection by a self-locking profile such that the lines of action of the required pressing forces (P) can no longer move the two elements to be joined along the miter surface. For adhesive used in the profile corresponding displacement chambers are provided (L). Moving parallel to the molded profile is possible.

In a bonding of the components, this takes place already in the production, it therefore requires a large amount of space during transport and storage, since the bonded components take up more space / volume, as the separate components.

One problem with such miter joints, however, is that the gluing profile is visible to the outside. This is disadvantageous because only a straight line along the bisecting line is always desired to the outside.

Summary of the invention

The invention provides a solution which avoids the disadvantages in the connection of elements mitred together by making the parts immovably positionable when connecting to each other, provides the desired external appearance, simplifies the introduction of pressing forces and also a detachable and re-connectable variant wide provides.

The invention achieves the object by the claimed with the independent claims device. Preferred embodiments are claimed by the dependent claims.

A miter joint for connecting two elements (A, B) at a predetermined angle, each of the elements (A, B) having a profile (AP1, BP1) at its miter, and at each of its miter elements (A, B) at least one distance profile (AP2, BP2) is formed, so that when joining the elements (A, B) along the bisector of the predetermined angle, only the joint line is visible, by the investment of the at least one spacer profile (AP2) of the first element (A) and the at least one spacing profile (BP2) of the second element (B) is formed during assembly.

The miter connection, wherein in the direction of the profile (AP1, BP1) in one of the elements (A, B) at least one means is introduced, with which the position of the elements can be defined to each other in the direction of the profile.

The miter joint, wherein the means may be a dowel (D), a spring, a bolt and / or another fitting part.

The miter joint, wherein the elements (A, B) are releasably / reconnectably connected to each other, wherein in at least one of the elements (A, B) at least one fitting part (VB, V) and / or a bolt (Q) mounted in the miter can.

The miter joint, wherein at least one miter of the elements (A, B), an adhesive may be applied.

drawings

1 shows a possible adhesive profile with the free space for adhesive (L) and the direction of the required pressing pressure (P) (prior art).

2 shows the undesirable visibility of a Verklebeprofiles on a workpiece (prior art).

3 shows a first element (A) with a first narrow surface (AS1).

4 shows a second element (B) with a second narrow surface (BS1).

5 shows a view of the first element (A), with a first profiled surface (AP1), two profiled surfaces (AP2) of the first element (A) and a dowel (D).

6 shows a view of the second element (B), with a second profiled surface (BP1), two profiled surfaces (BP2) of the second element (B) and a first bore (BB).

7 shows a view of the two elements (A, B) with the narrow surfaces (AS3) and (BS3) after joining with a smooth Miter / eschneidungsfläche.

8th shows a view of the elements (A, B) after assembly with indication of the possible position of the dowel (D) and the associated bore (BB) (both hidden).

9 shows a commercially available connecting bolt (VB), a commercially available connector housing (V), a special bolt (Q) and another special bolt with joint (QG).

10 shows the first element (A) with the additional holes (AB) and (AFV), the connecting bolt (VB) and connector housing (V) can accommodate.

11 shows the second element (B) with the additional holes (BB2, BB3), in which a transverse bolt (Q) and a connecting bolt (VB) can be introduced.

12 Shows the second element (B) with an inserted bolt (Q) and a connecting bolt (VB) fastened in the bolt (Q).

13 The elements (A) and (B) in pre-plugged state.

14 The elements (A) and (B) connected to double hinge pin (QDG).

Detailed description of the invention

The invention solves the above-mentioned problems by providing a compound of an element (A) ( 3 ) and a second element (B) ( 4 ). In this case, the first element (A) has a profile milling (AP1) ( 5 ) and the second element (B) at least one profile milling (BP1) ( 6 ). The profile milling (AP1) is introduced into the narrow surface (AS1) of the first element (A), the profile milling (BP1) in the wide surface of the second element (B). The profile milling (AP1) in the first element ends at a suitable distance (AP1a, AP1b) ( 5 ) of the narrow surface (AS1 and AS3) abutting the narrow surface (AS2 and AS3) of the first element (A). The profile milling (BP1) is introduced into the broad surface of the second element (B) parallel to the first narrow surface (BS1) of the second element and engaging in the first narrow surface (BS1). This profile milling (BP1) ends at a suitable distance (BP1a, BP1b) ( 6 ) of the two adjoining the first narrow surface narrow surfaces (BS2 and BS3) of the second element (B).

At least one, not profiled in the intersection of the first element (A) with the second element (B) milling (a distance profile) (AP2) is introduced into the first narrow surface of the first element (A), starting from the abutting other narrow surfaces (AS2 , AS3) in the direction of the center of the first narrow surface of the first element. These millings have a suitable length which is substantially greater than the distances of the profile milling in the first narrow face of the first element (AP1a, AP1b) from the abutting two other narrow faces of the first element. This results in two overlaps with the initially introduced profile milling (AP1) ( 5 ).

At least one, not profiled in the intersection of the first element (A) with the second element (B) milling (a spacer profile) (BP2) is introduced into the first narrow surface of the second element (B), starting from the adjoining other narrow surfaces (BS2 , BS3) in the direction of the center of the first narrow surface of the second element. These millings have a suitable length which is substantially greater than the distances of the profile milling in the broad surface of the second element (BP1a, BP1b) from the abutting two other narrow surfaces (BS2, BS3) of the second element. This results in two overlaps with the initially introduced profile milling (BP1) ( 6 ).

When joining the first element (A) and the second element (B) so that the self-locking adhesive profile is not visible, but only the non-profiled Verschneidungslinien the bonding surface with the narrow surfaces (AS3 / BS3) and (AS2 / AS2) of the elements ( A, B). ( 7 )

When joining the first element (A) and the second element (B), however, these can still undesirably in their position to each other in the direction +/- X direction ( 4 and 5 ) are moved. However, there must be an exact assignment of the elements to each other in the +/- X direction, otherwise no flat surface between the second narrow surface (AS2) of the first element with the second narrow surface of the second element (BS2) on the one hand and on the other hand between the third narrow surface of the first element (AS3) with the third narrow surface of the second element (BS3) is formed. To prevent this, a dowel (D) or other means is additionally introduced into the profiled first narrow surface (AS1) of the first element (A), so that its axis is perpendicular to the first narrow surface (AS1). In the second element (B), a corresponding associated receiving bore (BB) in the wide surface of the second element within the profiling (BP1) is introduced in order to accommodate the dowel (D) of the first element (A) can. Once done, moving in the X direction is prevented.

When adhesive is applied to all profiles (AP1, AP2 and BP1, BP2) when the first element (A) is joined to the second element (B), and the correspondingly large pressing force ( 1 , P) applied to the second element (B) so that their line of action is parallel to the broad surface of the first element (A), creates a glued connection of the generally position-determined elements (A, B).

Another way to connect the elements defined position is to use an additional fitting. For example, a fitting consisting essentially of a commercially available bolt (VB), a commercially available connector housing (V) and a transverse bolt (Q) or a special hinge pin (QG) or a jointed double bolt (QGD) ( 10 ) consists. Thus, a releasable and re-connectable connection can be created, which also shows the desired appearance.

For this purpose, a suitable number of holes (AB) in the narrow side surface (AS1) are introduced into the first element (A) parallel to the / the cylindrical dowel (s) (D), which can receive the connecting bolt (VB) ( 10 ). In addition, in the wide surface of the first element (A) an equal number of blind holes are introduced (AFV), which can accommodate the connector housing (V) ( 10 ).

In the first narrow side surface (BS1) of the second element (B) an equal number of holes (BB3) orthogonal to the wide surface of the second element (B) are introduced, creating the necessary space for the bolt (VB). Furthermore, bores (BB2) assigned in the same number are introduced orthogonally to the first narrow side surface (BS1) of the second element (B) into which the transverse pins (Q) or the hinge pins (QG) are introduced. ( 11 ). Cross pins must have a good fit (press fit) or glued.

The connecting bolts (VB) are now connected to the transverse bolt (Q), for example, in that in the cross bolt (Q) is introduced a bore with a thread and the connecting bolt (VB) has a corresponding thread on the connector housing end facing away ( 12 ). There are now in the second element (B) in the cross bolt (Q) introduced bolts (VB) in the corresponding holes (AB) in the first narrow surface of the first element (A) and in there into the holes in the broad surface of the first Element (A) inserted connector housing inserted. By twisting the connector housing, tensile forces are now exerted on the connector bolts (VB) and thus on the transverse bolts (Q). By the press fit or bonding of the transverse pin (Q) in the holes in the second element (B) this is firmly and position-defined connected to the first element (A).

Alternatively, the parts of the hinge pin (QG) which have no formations for accommodation in a connector housing (V) can also be introduced into the bores which are introduced orthogonally to the first narrow side surface (BS1) of the second element (B).

By twisting the connector housing, tensile forces are now exerted on the connector bolts (VB) and thus on the transverse bolts (Q). When the alternative with the hinge pin (QG) is used, the tensile forces are introduced via the hinge in the part of the hinge pin, which is not introduced into the connector housing. By the press fit or bonding of the transverse bolt (Q) or the fit or bonding of the hinge pin parts in the holes in the second element (B) this is firmly and positionally defined connected to the first element (A)

Alternatively, the parts of the jointed double bolt (QGD) which have formations for accommodation in a connector housing (V) can also be introduced into the bores which are introduced orthogonally to the first narrow side surface (BS1) of the second element (B). In the second element (B) then holes for connector housing (V) are introduced into the wide area analogous to the first element (A) (BFV) (BFV) ( 14 By twisting the connector housings in the first and second members, tensile forces are applied to the articulated double bolts (QGD, shown in FIG 9 ) exercised. Via the joint, the tensile forces of the connector housing in the first element (A) act on the second element (B) and the tensile forces of the connector housing in the second element (B) on the first element (A). Thus, the second element (B) is fixed and position-defined connected to the first element (A) ( 14 ).

Thus, the invention allows a secure and defined connection of the two elements (A, B), on the mitres, at the same time the desired line along the bisecting line is visible to the outside.

Claims (5)

A miter joint for connecting two elements (A, B) at a predetermined angle, wherein each of the elements (A, B) has a profile (AP1, BP1) at its miter, and at least one spacer profile (AP2, BP2) is formed on each of the elements (A, B) on its miter, such that when joining the elements (A, B) along the bisecting line of the predetermined angle, only the joining line is visible, which is achieved by the at least one spacing profile (AP2) of the first element (A) and the at least one spacing profile (BP2) of the second element (B) is formed during assembly. The miter joint according to claim 1, wherein in the direction of the profile (AP1, BP1) in one of the elements (A, B) at least one means is introduced, with which the position of the elements is defined to each other in the direction of the profile. The miter joint according to claim 2, wherein the means is a dowel (D), a spring, a bolt and / or another fitting part. The miter joint according to one of the preceding claims, wherein the elements (A, B) are releasably / reconnectably connected to each other, wherein at least one fitting part (VB, V) and / or a bolt (Q ) and / or a hinge pin (QG) and / or an articulated double pin (QGD) is mounted in the miter. The miter joint according to one of the preceding claims, wherein an adhesive is applied to at least one miter of the elements (A, B).

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