Patent Grant
7533443
1. Field of the Invention
This invention relates to a device for blocking open a door of a housing, in particular a switchgear cabinet, having a housing body on which the door is hinged, wherein a clamping element can be inserted into the area between the housing body and the door.
2. Discussion of Related Art
Devices for blocking a door open are generally known. For example, for maintaining the door of a switchgear cabinet in the open state, or for preventing the door from being inadvertently closed, for example by a draft, a wedge or other suitable object is often used. The wedge is then pushed into the gap between the door and the body of the switchgear cabinet defined by the hinge. In this way, the object is wedged between the door and the body of the switchgear cabinet and effectively prevents the door from being closed. It is also possible to place a heavy object against the open door to prevent it from being shut.
However, this solution has one disadvantage that, for keeping the door open, an additional object is required, which can become lost. Also, these objects are very cumbersome to manipulate, and their use sometimes entails the danger of injury.
A device for keeping a door open, which is fixedly attached between the door and body of the switchgear cabinet, is known. This device substantially includes a long metal element, which is hinged to the upper portion of the door by a rotary seating. A guide device for the metal element is on the cabinet body. The metal element has an elongated hole, in which a guide pin is conducted. When opening the door, the metal element is pulled out in the direction of the opening door and the pin guided in the elongated hole guides the movement of the metal element. As soon as the door is brought into its open position, the pin catches in a recess in the elongated hole, so that the door is maintained in the open position. Thus, the extended metal element forms a support of the door on the cabinet body.
However, this known device for keeping the door open has a relatively complicated construction and is not easy to manipulate, in particular when closing the door. Also, the known device must be quite large, in particular in connection with heavy cabinet doors, in order to attain the required stability. This leads to an increased space requirement at the upper inside of the door, or in the adjoining area of the cabinet body. When installing this device it is necessary to drill a plurality of holes for installation, which is expensive, particularly with metal doors, and increases the manufacturing costs.
It is one object of this invention to provide a device for blocking open a door of a housing which is particularly simply constructed and easy to manipulate. The blocking device in accordance with this invention may require little space.
This object of the invention is attained by a device having characteristics described in this specification and in the claims.
Accordingly, the clamping element is arranged on the inside of the door so that it can be rotated around an axis of rotation which extends perpendicularly with respect to the door, and is eccentrically seated in the clamping element. In this case, the clamping element can be rotated into a clamping position in which the clamping element projects beyond the door when opened and can be brought into contact with the housing body. With an appropriate shaping of the clamping element and by the eccentrically arranged axis of rotation it is possible for a portion of the clamping element to project beyond the door, at least in the opened position of the door. With a simple rotatory movement this protruding portion of the clamping element can then be introduced into the area between the door and the housing body defined by the hinge, so that a closing of the door is effectively prevented. Thus the clamping element can be clamped between the door and the housing body to keep the door open.
The clamping element can also be rotated into a neutral position. In this neutral position, the clamping element does not project past or beyond the door and can be received inside the housing body when the door is closed. Depending on the size of the clamping element, the space requirement is relatively small, in particular because no protruding installation elements are required.
In accordance with one embodiment, the blocking position is shifted by 180° with respect to the neutral position. However, the two positions can also be shifted with respect to each other, under different angles. In this case, it is only necessary to assure that the desired clamping effect between the door and the housing body is provided in the blocking position and that the door can be closed in the neutral position.
In another embodiment, the clamping element can have a holding device, which maintains the clamping element in the blocking position, for one, and otherwise in the neutral position. The holding device assures that the two positions can be definitely assumed and are fixed.
One embodiment has a guide strip arranged on the door, which engages a recess cut into the clamping element. Such a holding device is very simply constructed and also has a sufficient functional dependability.
In an advantageous manner, the axis of rotation can be defined by a pin, one end of which is fixed in place on the guide strip. In this case, the pin extends through a first through-bore in the clamping element, which is arranged perpendicularly with respect to the recess and eccentrically with respect to the axis of symmetry of the clamping element. Thus it is possible to simply provide the rotatory seating for the clamping element.
In accordance with one embodiment, the pin can have a head at the free end located opposite the end fixed on the guide strip, wherein a compression spring is acting between the head and the clamping element and clamps the guide strip in place in the recess. In another embodiment, the compression spring can be constituted as a helical spring into which the pin is introduced.
So that the compression spring can be dependably supported on the clamping element, a shoulder on which the helical spring is supported can be formed in the through-bore on the side of the clamping element facing the compression spring.
In one simple construction, the pin is embodied as a screw, which engages a threaded element arranged in the guide strip. The screw has a head required for supporting the helical spring and can be fastened in a simple manner on the guide strip.
In one embodiment, such as for use in a switchgear cabinet, the guide strip can be formed by a perforated door strip. The perforated door strips are used for mounting additional components in connection with switchgear cabinet doors.
So that the clamping element can be used for doors which are hinged on the right or the left, as well as in the upper or lower area of a door, a second through-bore which is arranged eccentric with respect to the axis of symmetry of the clamping element, is cut in the clamping element and extends parallel with the first through-bore and perpendicular to the recess. The manufacturing expenses for differently oriented clamping elements are reduced by the second through-bore.
In one embodiment, a blocking element, which maintains the door in the open position, can act between the clamping element and the housing body. In this case the blocking element can be embodied, for example, as a depression or protrusion, or as an appropriate fixation, on a section facing the housing body and which, in the support position for the door, automatically fixes the respective area of the housing body, so that in the pivoted position the door is also secure against an automatic free outward pivot movement. In this case, a snap-in holder can be provided between the clamping element and the housing body, which causes an automatic fixation and securing of the door.
In another embodiment, the clamping element can have a contact area by which the clamping element contacts the housing body when the door is open. Thus, a particularly dependable fixing of the door in the open position is simply achieved if the contact area of the clamping element has a groove-like recess, into which a support element provided on the housing body extends when the door is open, and is supported against the clamping element. Here, the support element can form the frame element of the housing body to which at least one door hinge is attached.
The clamping element can be modified so that it can be used in connection with various types of hinges. It is also possible to provide different clamping elements for different hinges. For this reason, the contact area of the clamping element, or the blocking element, can be matched to the respectively used door hinge.
In accordance with another embodiment, the contact area of the clamping element can have a step-shaped extension, against which a support element protruding from the housing body is supported when the door is open. With this, even a heavy door is dependably and stably maintained in the open position.
This invention is explained in view of preferred embodiments while making reference to the attached drawings, wherein:
In
The clamping element 14 is attached to the inside of the door 10 and can be rotated around an axis of rotation 18, which extends perpendicular to the door 10 and is eccentrically arranged with respect to the plane of symmetry 28 of the clamping element 14, in a direction of the arrow A in a clockwise direction. If the clamping element 14 is further rotated in the direction of the arrow A, it reaches the neutral position represented in
A first through-bore 30 is provided in the clamping element 14 perpendicularly with respect to the recess 22 and is arranged eccentrically with respect to the axis of symmetry 28, represented in
The screw 24 has a head 34 at its free end 32, which is located opposite the end 26 fixed in place on the guide strip 20 or on the perforated door strip. A helical spring 36, which clamps the guide strip 20 in place in the recess 22, is supported between the head 34 and a shoulder 38 in the through-bore 30. The screw 24 is inserted into the helical spring 36.
The clamping element 14 can be manually lifted in the direction of the arrow R against the spring force of the helical spring 36. Thus, the recess 22 comes out of contact with the guide strip 20 or the perforated door strip. As a result the clamping element 14, in a state not shown, in which it is lifted-off in the direction of the arrow R, can be rotated around the axis of rotation 18 in the direction of the arrow B. In this way, the clamping element 14 can be brought out of the neutral position represented in
As shown in
Two through-bores 30 and 42 are provided in the clamping element 14, which are applied perpendicularly with respect to the recess 22. In the orientation of the clamping element shown in
It is also shown in
On one side the clamping element 14 has a contact area 44, against which the clamping element 14 can be brought to rest against the housing body 12 when the door 10 is open. The contact area 44 is designed flat and is used for supporting the door 10 on the housing body 12.
In a schematic perspective partial view,
The support element 48, together with the groove-like recess 46, acts as a blocking means which secures the door. During movement of the door in the direction of the arrow D, the support element 48 snaps into the recess 46, because of which the door is automatically maintained in the open position.
The support element 48 forms the frame element of the housing body 12, on which the door hinges are attached, of which only the door hinge with the reference numeral 8 is shown in
In a schematic perspective partial view and in an exploded representation,
It is furthermore shown in
The support element 52 forms the frame element of the housing body 12, to which the door hinges are attached, of which only the door hinge with the reference numeral 8 is shown in
In a schematic perspective partial view and in an exploded representation,
It is also shown in
German Patent Reference 10 2005 050 639.9, the priority document corresponding to this invention, and its teachings are incorporated, by reference, into this specification.
| Number | Date | Country | Kind |
|---|---|---|---|
| 10 2005 050 639 | Oct 2005 | DE | national |
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| Number | Date | Country | |
|---|---|---|---|
| 20070101650 A1 | May 2007 | US |
