This application claims priority to UK application number GB 2016759.9 filed Oct. 22, 2020, the disclosure of which is hereby incorporated by reference in its entirety.
This invention relates to a closing device and in particular, though by no means solely, to a closing device for inclusion in the mounting of a door incorporated in a cubicle of a public washroom or bathroom.
In our published UK Patent Application No. GB 2508793 we describe a door closer from which a door, incorporated in a washroom cubicle, is suspended. While the described device performs extremely well, skill is required to correctly position and fix the device; and the working parts are relatively bulky and open to the surroundings. This latter feature means that the working parts are at least potentially exposed to corrosive cleaning chemicals used in washrooms and are also potentially exposed to unwanted tampering.
It is an object of the invention to provide a door closer which goes at least some way to addressing the abovementioned issues; or which will at least provide a novel and useful choice.
Accordingly, the invention provides door closing apparatus including: an elongate body of substantially constant cross section, the body having a length axis and an interior void; a pivot member located, at least in part, within the elongate body, having an outer surface, and constructed and arranged to rotate about a pivot axis; biasing element located within the elongate body and mounted between the body and the pivot member to bias the pivot member toward a neutral position in which bias applied by the biasing element is at a minimum; and a damping means operable to damp rotation of the pivot member relative to the housing wherein the biasing element, in combination with the pivot member is configured such that as the pivot member is rotated a defined angle from the neutral position, the biasing element engages the outer surface to limit further rotation of the pivot member.
Preferably the elongate body, when viewed along the length axis, has a substantially uniform outer shape.
Preferably the pivot member includes a door mount projecting through an aperture in the elongate body.
Preferably the aperture is symmetrical about a longitudinal centreline of a face of the elongate body.
Preferably a seal is provided between the pivot member and the elongate body where the pivot member projects through the elongate body.
Preferably the seal is incorporated in a bearing.
Preferably the interior void includes a pivot cavity configured to receive the pivot member, the pivot cavity having a linear dimension in the direction of the pivot axis which terminates in a boundary defined by a wall section of the void, and wherein that part of the pivot member located within the housing terminates in an end surface which is substantially parallel to, and is a clearance fit relative to, the boundary.
Preferably the damping means comprises a damping grease located in the pivot cavity and between the end surface and the boundary.
Preferably the outer surface comprises a peripheral surface spaced from and around the pivot axis and wherein part of the biasing element is pivotally attached to the pivot member outwardly of the peripheral surface.
Preferably the pivot member includes a channel extending around and projecting from the peripheral surface, the part of the biasing element being pivotally retained within the channel.
Preferably the biasing element comprises a single coil spring aligned generally along the length axis of the elongate body, a first link configured to pivotally connect the coil spring to the pivot member, and a second link to connect the coil spring to the elongate body.
Preferably the first link is substantially rigid.
Preferably the apparatus further includes an adjuster mounted between the second link and the elongate body, the adjuster being displaceable along the length axis; and a locking element to lock the adjuster relative to the elongate body in a selected position on the length axis.
Preferably the locking element is operable from the exterior of the elongate body.
Preferably the elongate body has an aperture in a wall thereof, through which the position of the adjuster is visible from the exterior of the elongate body
Many variations in the way the present invention can be performed will present themselves to those skilled in the art. The description which follows is intended as an illustration only of one means of performing the invention and the lack of description of variants or equivalents should not be regarded as limiting. Subject to the scope of the appended claims, wherever possible, a description of a specific element should be deemed to include any and all equivalents thereof whether in existence now or in the future.
A working embodiment of the invention will now be described with reference to the accompanying drawings in which:
Referring to
In the particular example shown in
As will be apparent from the description that follows, the closer 15 is conveniently mounted on a cross member 18 forming part of the frame of the cubicle. As can be seen in
Turning now to
Located within the interior void 27 of this embodiment of closer is a pivot member 30, biasing element 31, and damping means (not shown), further details of which follow below. With these components installed within the void 27, the body can be closed by a cover plate secured to the body 25 by machine screws 33, the cover plate 30 defining the upper boundary of the void 27.
The pivot member 30 is mounted for rotation about pivot axis 11 in a pivot cavity 35, forming part of the void 27, by way of a bearing 36, preferably a sealed bearing. The pivot member 30 preferably takes the form of a spindle having a round peripheral surface 37 positioned within the void 27 and a door mounting section 38 that projects through an aperture 39 provided on the longitudinal centreline of the base surface 40 of the body 25. When mounted in cross member 18, the door mounting section 38 also projects through slot 22 to provide a mount for the door 10. The pivot member 30 further includes a peripheral channel 41 defined by spaced flanges projecting from, and extending around, the peripheral surface 37. The length of the member 30, in the direction of the pivot axis 11, is set so that, when assembled into the pivot cavity 35, end surface 42 of the member 30 is a close clearance fit with the inner surface of the cover plate 32.
The biasing element 31 is aligned in the general direction of the length axis 26 and is configured and arranged to bias the pivot member 30 to a neutral position; that is to say, a position in which the bias applied by the biasing element on the pivot member is at a minimum as shown in
In the form shown, the biasing element 31 comprises a single coil spring 44 and two links. A first link 45 projects from one end of the coil spring 44 and is held in the peripheral channel 41 by means of pivot pin 46. As can be seen in
A particular feature of the invention is that the pivot member 30 and the biasing element 31 are, in combination, configured so that as the pivot member 30 is rotated to a defined angle, in this example about 90°, from the neutral position, the biasing element 31 and pivot member 30 engage to limit further rotation of the pivot member. Referring now to
The adjuster 50 locates within a channel 51 formed in the base of the interior void 27 and, in this example, the position of the adjuster in the channel 51 is both varied by, and locked by, a cap screw 52. The cap screw 52 is passed through a hole in an end 53 of the body, engaged in the adjuster 50 and can be rotated by a tool external to the closer to vary the position of the adjuster in the channel, and thus the degree of bias imposed by the biasing element 31 on the pivot member 30. A slot (not shown) may be provided in base wall 40 to allow the position of the adjuster 50 to be viewed.
The damping means provided to damp the closing action preferably comprises a damping grease (not shown) which is placed in the void 27 and, more particularly in the pivot cavity 35, so as to surround the pivot member. The grease is also preferably provided between the end face 42 of the pivot member 32 and the inner surface of the cover plate 32. Any suitable grade of grease may be used, one suitable example being a grease having a kinematic viscosity at 40° C. in the range 150000 to 250000 cSt when tested according to ASTM D-445.
It will thus be appreciated that a closer according to the invention is not only compact, easily positioned and fixed in place, but the operative parts are protected from harmful substances and unintended tampering.
Number | Date | Country | Kind |
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2016759.9 | Oct 2020 | GB | national |