Hinge closure

Abstract

A hinge closure (1) includes a frame assembly (2) having a pin (3) for attachment to a door frame and a hinge assembly (4) rotatably mounted on the pin (3) with a door part (5) for attachment of the hinge assembly (4) to a door; a pivot part (6) mounted on the door part (5) so as to be pivotable about a pivot pin (7); and a slide (8) mounted exclusively in the door part (5). The slide (8) forms, together with the door part (5), a seat for the pin (3) of the frame assembly (2). The pivoting part (6), during pivoting out from the door part (5), contacts the slide (8) and displaces until reaching a venting state and to reach the removal state, the slide (8) must be further displaced manually against the spring preloading.

Claims

1. A hinge closure (1), comprising: a frame assembly (2) having a pin (3) for attachment to a door frame; a hinge assembly (4) rotatably mounted on the pin (3) with a door part (5) for attachment of the hinge assembly (4) to a door; a pivot part (6) mounted on the door part (5) so as to be pivotable about a pivot pin (7); and a slide (8) mounted exclusively in the door part (5), wherein the hinge assembly (4), in a hinging state in which the pivot part (6) is pivoted into the door part (5), is exclusively movable in rotation about the pin (3) of the frame assembly (2), and in a venting state, in which the pivoting part (6) is pivoted out from the door part (5), is movable translationally transversely with respect to the pin (3) and is not yet completely removable from the pin (3) of the frame assembly (3), and wherein the hinge assembly (4) is transferable against a spring preloading from the venting state into a removal state by manually actuating the slide (8), wherein, in the hinging state, the slide (8) forms, together with the door part (5), a seat for the pin (3) of the frame assembly (2), and wherein the pivot pin (7) of the pivoting part (6) is also offset from the pin (3) of the frame assembly (2) in the hinging state, wherein the pivoting part (6), during pivoting out from the door part (5) contacts the slide (8) and moves until reaching the venting state, wherein to reach the removal state, the slide (8) must be further displaced manually against the spring preloading.

2. The hinge closure (1) according to claim 1, wherein the slide (8) has a first actuating projection (9) that cooperates with the pivoting part (6), such that the pivoting part (6) displaces the slide (8) without spring preloading during pivoting.

3. The hinge closure (1) according to claim 2, wherein the slide (8) has a second actuating projection (10), wherein the slide (8) is transferable against the spring preloading from the venting state into the removal state via the second actuating projection (10).

4. The hinge closure (1) according to claim 1, wherein the slide (8) is chamfered on an underside on an end (11) facing toward the frame assembly (2), such that the slide (8), upon placement of the hinge assembly (4) in the venting state onto the frame assembly (2), is displaced against the spring preloading out of the venting state.

5. The hinge closure (1) according to claim 1, wherein the frame assembly (2) comprises a frame part (12) for attachment of the frame assembly (2) to the door frame and a pin part (13) forming the pin (3), wherein the frame part (12) and the pin part (13) are connected to one another via an adjustment element (14), such that a position of the pin (3) relative to the door frame is adjustable by means of the at least one adjustment element (14).

6. The hinge closure (1) according to claim 5, wherein the at least one adjustment element is a screw (14), wherein the screw (14) is received through a through-hole (15) in the frame part (12) and engages in a threading (16) formed in the pin part (13).

7. The hinge closure (1) according to claim 6, wherein the screw (14) is arranged in a recess (15) formed in a side (21) of the frame part (12) facing the hinge assembly (4), the screw (14) having a screw head (17) with a height (18).

8. The hinge closure (1) according to claim 6, wherein the screw (14) is inserted into the frame assembly (2) from an upper side (22) and screwed into a nut (23) on an underside (26) of the frame part (12), wherein the nut (23) is arranged in a form fit manner in a recess (19) on the underside (26) of the frame part (12), the screw head (17) having a height (18) that corresponds with a depth (20) of the recess (19).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The invention and technical field will be explained next with reference to the exemplary embodiment shown in the figures. In the figures:

(2) FIG. 1 shows a hinge closure;

(3) FIG. 2 shows an exploded view of a hinge assembly;

(4) FIG. 3 shows a frame assembly;

(5) FIG. 4 shows an exploded view of the frame assembly;

(6) FIG. 5 shows an exploded view of a further frame assembly;

(7) FIG. 6 shows a sectional view through the hinge closure in the hinging state;

(8) FIG. 7 shows the sectional view through the hinge closure in the ventilating state; and

(9) FIG. 8 shows the sectional view through the hinge closure in the removed state.

DETAILED DESCRIPTION OF SPECIFIC EMBODIMENTS

(10) FIG. 1 shows a hinge closure 1 with a frame assembly 2 and a hinge assembly 4, which includes a door part 5 and a pivoting part 6. During mounting to a cabinet, the frame assembly 2 is attached to a frame of the cabinet and the door part 5 of the hinge assembly 4 is attached to a door of the cabinet. In the hinging state shown in in FIG. 1 and FIG. 6, the hinge assembly 4 connected with the door is pivotable about a pin 3 formed by the frame assembly 2.

(11) If the pivoting part 6 is pivoted out from the door part 5, then the hinge assembly 4 moves into a venting state (FIG. 7), in which the hinge assembly 4 is displaceable transversely to the pin 3 of the frame assembly 2, whereby the hinge group 4 is not yet completely removable from the frame assembly 2. So that the door that is connected with the hinge assembly 4 is removable completely from the frame, a slide 8 must be completely pulled backwardly, so that the pin 3 of the frame assembly 2 is completely released (FIG. 8).

(12) In FIG. 2, the components of the hinge assembly 4 are shown. The pivoting part 6 is pivotably mounted in the door part 5 by means of a pivot pin 7. The pivot pin 7 is thereby offset relative to a seat surrounding the pin 3 of the frame assembly 2. The pivoting part 6 can be secured in a state that is pivoted into the door part 5 by means of an interlock or pivot 25.

(13) The hinge assembly 4 further includes a slide 8, which is displaceably mounted in the door part 5. The slide 8 includes an end 11, which faces the frame assembly 2, a first actuating projection 9 and a second actuating projection 10. The slide 8, with its end 11, forms a part of the seat for the pin 3 of the frame assembly 2 in the hinging state (FIG. 6). The slide 8 is coupled with the pivoting part 6 via the first actuating projection 9, such that the slide 8 is pulled back during pivoting of the pivoting part 6 from the door part 5 from the pivoting state into the venting state, to such a point that the seat for the pin 3 is partially released. In the venting state, the hinge assembly 4 can be displaced transversely to the pin 3 of the frame assembly only to the point that the slide 8 comes into contact with its outermost end with the pin 3 (FIG. 7). In order to move the hinge assembly 2 into a removable state, the slide 8 must be shifted back by means of the second actuating projection 10 against a preloading provided by a spring 24, whereby the pin 3 of the frame assembly 2 is completely released (FIG. 8).

(14) In FIGS. 3 and 4, a first embodiment of a frame assembly 2 is shown. The frame assembly 2 includes a frame part 12 and a pin part 13. The frame part 12 and the pin part 13 are connected to one another by means of a screw 14, which is guided first from an upper side 22 through a through-hole 15 in the pin part 13 and then through a through-hole 15 in the frame part 12. Next, the screws 14 are screwed, respectively, into a threading 16 in the pin part 13 and engage through a through-hole 15 in the frame part 12. On the underside 26, recesses (not visible here) are formed, in which, respectively, a nut 23 is arranged and in which the screws 14 engage. The spacing of the pin 3 to a frame can be adjusted by actuating the screw 14.

(15) In FIG. 5, a further embodiment of the frame assembly 2 is shown. With this embodiment, the through-hole 15 is formed as an elongated hole or slot in a side 21 of the frame part 12, which, in the mounted state, faces the hinge assembly 4. The through-hole 15 is formed as an elongated hole or slot so that by the relative position of the screws 15 engaged in the threading 16 formed on the pin part 13, the distance of the pin 3 to the frame can be fixed. The screws 14 each have a screw head 17 with a height 18. The screw heads 17 are each arranged in a sinkhole described as a recess 19, whose depth 20 is at least as great as the height 18 of the screw head 17.

(16) The specification incorporates by reference the disclosure PCT/EP2016/0-73954, filed Oct. 7, 2016, and DE 10 2015 117 505.3, filed Oct. 15, 2015.

(17) The present invention is, of course, in no way restricted to the specific disclosure of the specification and drawings, but also encompasses any modifications within the scope of the appended claims.

REFERENCE NUMERAL LIST

(18) 1 hinge closure 2 frame assembly 3 pin 4 hinge assembly 5 door part 6 pivoting part 7 pivot pin 8 slide 9 first actuating projection 10 second actuating projection 11 end of slide 12 frame part 13 pin part 14 screw 15 through hole 16 threading 17 screw head 18 height 19 recess 20 depth 21 side facing the hinge assembly 22 upper side 23 nut 24 spring 25 interlock/pivot 26 underside