This application claims the benefit of International Patent Application No. PCT/GB2019/050541, filed Feb. 27, 2019 and UK Patent Application No. 1803211.0, filed Feb. 27, 2018, the entire contents of which are incorporated herein by reference.
The present invention relates to handle assemblies for door or window leaves. In particular it relates to handle assemblies having means for locking the assembly from the inside to prevent entry from outside.
Doors typically have latch mechanisms for holding the door closed by means of a latch which engages in a recess or keep in the door jamb. Windows can have similar latch mechanisms. Such latch mechanisms are typically operated by means of a handle (usually either a lever type handle or knob type handle).
Handle assemblies for interior doors sometimes include a “privacy” locking function. This facility is generally required in toilets, bathrooms and bedrooms where the occupant is able to activate the locking function to prevent the accidental intrusion of other persons. The privacy locking function is typically provided by a locking button on the internal side of the handle assembly that when actuated prevents opening of the door. Privacy locking buttons can be unsightly.
Handle assemblies for exterior doors typically include a lockable latch or a separate deadbolt. The lockable latch or separate deadbolt is usually locked and unlocked from the outside or inside using a key. It is inconvenient to require use of a key when locking and unlocking a lock from the inside.
An alternative mechanism for locking exterior or interior doors or windows from the inside would be useful.
According to a first aspect of the invention there is provided a handle assembly for a window or door leaf having first and second opposing sides, the handle assembly having a forward end and a rearward end, the handle assembly comprising: a first handle grip, configured for mounting to a first side of the leaf, the first handle grip being moveable rotatably and axially relative to a first handle axis, and a second handle grip configured for mounting to the second side of the leaf, the second handle grip being movable at least rotatably relative to a second handle axis, each handle grip having a closed position, wherein the handle grip is in a first angular position and an open position, wherein the handle grip is in a second angular position, the handle assembly having a rest mode in which at least the second handle grip is configured for driving a latch means between a latched position and a released position, and locked mode in which the second handle grip is prevented from being operable to drive the latch means, wherein the handle assembly is configured such that the handle assembly is transformed between the rest mode and the locked mode by moving at least a part of the handle assembly at least axially along the first handle axis or along an axis parallel with the first handle axis.
In preferred embodiments the handle assembly is transformed between the rest mode and the locked mode at least by moving at least a part of the handle assembly axially along the first handle axis. The handle assembly can therefore be locked at least by axial movement of part of the handle assembly, such as the first handle grip, to convert the handle assembly to the locked mode such that the latch means cannot be driven by the second handle grip until the handle assembly is unlocked by movement of said part of the handle assembly at least axially to convert the handle assembly to the rest mode. Prior art handle assemblies typically have handles that are secured by a fixing clip or washer and do not move forwards or backwards, as shown in
Preferably the handle assembly is configured such that it is transformable from the rest mode to the locked mode by one of moving the first handle grip axially forwards relative to the leaf and axially rearwards relative to the leaf. In preferred embodiments the handle assembly is configured such that it is transformable from the rest mode to the locked mode by moving the first handle grip axially forwards relative to the leaf.
In certain embodiments the handle assembly further comprises a first spindle that is rotated upon rotation of the first handle grip and a second spindle that is rotated upon rotation of the second handle grip, each spindle being engageable with a drive mechanism for driving the latch means, wherein the handle assembly is configured such that transformation of the handle assembly from the rest mode to the locked mode causes the second spindle to be disengaged from the drive mechanism.
Preferably transformation of the handle assembly from the rest mode to the locked mode causes the second spindle to be pushed forwards, disengaging the second spindle from the drive mechanism. This type of handle assembly can be used for a standard type latch where the user has to press the handle lever down to actuate the latch or lock. In preferred embodiments the first handle grip is an internal handle grip and the assembly is configured such that movement of the first handle grip axially transforms the handle assembly from rest mode to locked mode. This provides an easy way to lock the door to prevent others from gaining entry from outside. A user of this system will not accidentally lock themselves out as the handle assembly does not remain locked after a user has used the first handle grip to exit the door (as the handle assembly would return to rest mode).
Preferably transformation of the handle assembly from the rest mode to the locked mode causes the second spindle to be pushed forwards by forwards movement of the first spindle. In preferred embodiments the handle assembly is transformed from the rest mode to the locked mode by pushing the handle grip axially forwards relative to the leaf, which in turn causes the first spindle to move axially forwards, pushing the second spindle forwards such that it is disengaged from the drive mechanism.
Preferably the first spindle has a forward end that is received in a first end of a spindle bore of the drive mechanism and the second spindle has a rearward end that is received in a second end of the spindle bore, the second spindle having a first portion at its rearward end, the first portion having a cross-section shaped so as not to engage with the spindle bore when received therein, and a second portion adjacent the first portion, the second portion having a cross-section shaped to engage with the spindle bore when received therein via keying engagement. When the second portion of the second spindle is received in the spindle bore, rotation of the second spindle will operate the drive mechanism by means of the keying engagement of the second portion in the spindle bore, whereas when the first portion of the second spindle but not the second portion is received in the spindle bore, rotation of the second spindle will not operate the drive mechanism. When the first portion of the second spindle but not the second portion is received in the spindle bore, the second spindle may rotate freely within the spindle bore without operating the drive mechanism as the first portion does not key with the spindle bore. The second portion of the second spindle is preferably non-circular in cross-section. When the assembly is in rest mode the first portion and at least part of the second portion of the second spindle will be received in the spindle bore. Transformation of the assembly to the locked mode pushes the second spindle forwards, displacing the second portion of the second spindle from the spindle bore. This disengages the second spindle from the drive mechanism.
Preferably the first portion of the second spindle has a round cross-section and the second portion has a square cross-section.
Preferably the handle assembly further comprises biasing means to bias the second handle grip rearwardly. Preferably the biasing means comprises a spring. The handle assembly may further comprise biasing means to bias the first handle grip rearwardly. The biasing means may be a spring.
Preferably the handle assembly further comprises retaining means for retaining the handle assembly in the locked mode.
Preferably the retaining means comprises a first element mounted in rigid association with the first handle grip in use and a second element mounted in rigid association with the leaf in use, the first element and second element being adapted to cooperate with one another via magnetic attraction. In preferred embodiments the first element is arranged such that it is carried by the first handle grip as the first handle grip is moved relative to the leaf. When the handle assembly is transformed from its rest mode to its locked mode the first element will be moved into contact or into close proximity with the second element and the first element will be retained in this position via magnetic attraction between the first element and the second element. Preferably one of the first and second elements is magnetic and the other of the first and second elements is ferromagnetic.
In other embodiments the retaining means comprises a mechanical clip means for retaining the first handle grip in rigid association relative to the leaf in order to retain the handle assembly in the locked mode. The mechanical clip means may retain the first handle grip in rigid association relative to the leaf, for example via some sort of friction means.
In certain embodiments the handle assembly is configured such that in order to transform the handle assembly from the rest mode to the locked mode the first handle grip is moved axially along the first handle axis then rotated.
Preferably the forward end of the first spindle has a cross-section shaped to engage with the spindle bore when received therein via keying engagement such that rotation of the first spindle when engaged in the spindle bore rotates a collar of the drive mechanism in which the spindle bore is located,
In certain embodiments the handle assembly may be configured such that in order to transform the handle assembly from the rest mode to the locked mode the first handle grip is simply rotated (without needing to first axially move the first handle grip). In such embodiments the assembly can be transformed from rest mode to locked mode by rotating the first handle grip to rotate the collar out of alignment with at least a portion of the second spindle that is engageable via keying engagement in the spindle bore so that said portion cannot engage with the misaligned collar.
Preferably the second spindle has a first portion at its rearward end, the first portion having a cross-section shaped so as not to engage with the spindle bore when received therein, said at least a portion of the second spindle shaped to engage with the spindle bore being a second portion of the spindle adjacent the first portion.
Preferably the first handle grip has a third angular position, wherein when the first handle grip is moved into its third position, the handle assembly is configured such that it is retained in the locked mode until the first handle grip is moved away from its third position. The handle assembly may be configured such that movement of the first handle grip into its third position also actuates multi-point locks of a multi-point lock system.
Preferably the first handle grip is moveable into its third position by moving the first handle grip rotatably relative to the handle assembly. In preferred embodiments the first handle grip is lifted rotatably towards the top of the leaf from its closed position into its third position.
Preferably the handle assembly further comprises at least a first blocking means transformable between a first blocking configuration and a non-blocking configuration, wherein in the first or each blocking configuration rotation of the first handle grip is limited, and wherein the handle assembly is configured such that the blocking means is transformed between the first or each blocking configuration and the non-blocking configuration by moving the first handle grip axially along the first handle axis. In the non-blocking configuration at least the first handle grip is free to be rotated. When the blocking means is in a blocking configuration at least the first handle grip is prevented from moving away from a predetermined position. In preferred embodiments the handle assembly further comprises biasing means to bias the blocking means away from the non-blocking configuration.
Preferably the blocking means comprises at least a first stop member and at least a first blocking formation, the at least a first blocking formation being coupled to the first handle grip for movement therewith, the first blocking formation being contactable with the first stop member when the blocking means is in its first blocking configuration, thereby limiting rotation of the first handle grip.
Preferably said blocking formation comprises a protrusion projecting radially along the first handle axis.
Preferably the handle assembly further comprises a housing, the first handle grip being moveable rotatably and axially relative to the housing, the blocking formation being housed within said housing in use. For a blocking means on the internal side of the handle assembly, the housing will be on the internal side of the handle assembly. A handle assembly may additionally or alternatively have blocking means on the external side of the handle assembly, in which case the housing referred to above will be on the external side of the handle assembly.
Preferably the handle assembly further comprises a rotatable body arranged such that it rotates upon rotation of the first handle grip, the protrusion projecting radially from the rotatable body. Suitably the rotatable body is arranged such that it is coaxial with the first handle axis.
Preferably the first stop member is located on the housing and is configured for contacting the first blocking formation when the blocking means is in the first blocking configuration. Preferably the first stop member is mounted to or integral with an inside surface of the housing.
In certain embodiments said first blocking configuration is a locked blocking configuration in which at least the first handle grip is prevented from being rotated away from its third position by the blocking means. Suitably the housing has a stop member located for contacting the blocking formation to prevent the first handle grip from being rotated away from its third position when the blocking means is in the locked blocking configuration.
Preferably the blocking means is a retaining means for retaining the handle assembly in the locked mode. Once the blocking means has been transformed into the locked blocking mode, the first handle grip must be moved axially forwards in order to move the blocking means out of the locked blocking mode. In certain embodiments the blocking means is in the locked blocking configuration when the handle assembly is in its locked mode and the blocking means is in the non-blocking configuration as the handle assembly is being moved between the locked mode and the rest mode.
Preferably the blocking means is further transformable into a child safety blocking configuration in which at least the first handle grip is prevented from being rotated away from its closed position by the blocking means. The child safety blocking configuration is a second blocking configuration. Suitably the housing has a stop member located for contacting the blocking formation when the blocking means is in the child safety blocking configuration. In certain embodiments the handle assembly is in the child safety blocking configuration when the handle assembly is in the rest mode.
In certain embodiments the handle assembly further comprises a button mounted on the first side of the leaf in use, wherein the handle assembly is configured such that actuation of the button transforms the assembly from rest mode to locked mode. Preferably the button is configured to be actuated by pushing it forward relative to the leaf. Preferably transformation of the handle assembly from the rest mode to the locked mode causes the second spindle to be pushed forwards by pushing of the button forwards relative to the leaf.
In certain embodiments the handle assembly comprises spindle means that rotatably couples the first and second handle grips in use such that the first and second handle axes are coaxial and align with a handle axis, wherein the assembly further comprises a first blocking means transformable between a first blocking configuration and a non-blocking configuration, wherein in the first blocking configuration the first and second handle grips are prevented from being rotated, and wherein the handle assembly is configured such that the blocking means is transformed between the blocking configuration and the non-blocking configuration by moving the first handle grip axially along the handle axis. In certain embodiments the blocking means is in the non-blocking configuration when the handle assembly is in its rest mode and the blocking means is in the blocking configuration when the handle assembly is in its locked mode.
Preferably the handle assembly is configured such that the blocking means is transformed from the non-blocking configuration to the blocking configuration by moving the first handle grip forwards axially along the handle axis.
The handle assembly may further comprise indicator means to indicate to a user whether the handle assembly is in the rest mode or the locked mode.
Preferably the indicator means is a visual indicator means comprising a rest mode indicator on the first side of the leaf which if visible indicates that the handle assembly is in the rest mode, whereby movement of the first handle grip during transformation of the handle assembly between the rest mode and the locked mode alters the extent to which the rest mode indicator is visible to the user in order to visually indicate whether handle assembly is in the rest mode. When the handle assembly is moved from rest mode into locked mode, the rest mode indicator is covered by the first handle grip. When the handle assembly is moved from locked mode into rest mode, the rest mode indicator is uncovered by the first handle grip.
Preferably the indicator means is a visual indicator means comprising a locked mode indicator on the second side of the leaf which if visible indicates that the handle assembly is in the locked mode, whereby movement of the second handle grip during transformation of the handle assembly between the rest mode and the locked mode alters the extent to which the locked mode indicator is visible to the user in order to visually indicate whether handle assembly is in the locked mode. When the handle assembly is moved from rest mode into locked mode, the locked mode indicator is uncovered by the first handle grip. When the handle assembly is moved from locked mode into rest mode, the rest mode indicator is covered by the first handle grip.
Preferably the locked mode indicator is moveable between a first position in which it is substantially covered from view by the second handle grip and a second position in which it protrudes from the second handle grip, wherein the handle assembly is configured such that transformation of the handle assembly from the rest mode to the locked mode causes the spindle means to be pushed forwards by forward movement of the first handle grip, whereby the spindle means pushes the locked mode indicator from its first position to its second position. In preferred embodiments the locked mode indicator is biased towards its first position.
The indicator means may be an electrical indicator means. Preferably the handle assembly further comprises a switch means that actuates an electrical indicator, wherein the handle assembly is configured such that transformation of the handle assembly from the rest mode to the locked mode causes the spindle means to be pushed forwards by forward movement of the first handle grip, which in turn activates the switch means to actuate the electrical indicator. The electrical indicator may be an audible indicator or illuminating indicator. For example, the handle assembly may include a speaker to produce an audible sound when the switch is activated or include an LED that illuminates whilst the switch is activated.
Preferably the handle assembly further comprises spindle means that is rotated upon rotation of the first and/or second handle grip, the spindle means having a sacrificial portion and a remainder portion, the sacrificial portion being configured for breaking away from the remainder portion if an attempt is made to snap the spindle means.
According to a further aspect of the invention there is provided a spindle means for a handle assembly, the spindle means having a sacrificial portion and a remainder portion, the sacrificial portion being configured for breaking away from the remainder portion if an attempt is made to snap the spindle means. The sacrificial portion is preferably at the forward end of the spindle means.
According to a further aspect of the invention there is provided a kit for a handle assembly according to any aspect of the invention described above.
The term “engage” as used herein refers to interlocking or mating of components and “disengage” refers to unmating or mechanical uncoupling of components.
In the context of the present invention, the term “mounting” means connecting or joining, either directly or by means of an intermediate or auxiliary element.
It is to be understood that the mere use of the term “first” does not require that there be any “second,” and the mere use of the term “second” does not require that there be any “third,” etc.
Embodiments of the invention will now be described by way of example only, with reference to the accompanying drawings, in which:
The present embodiments represent currently the best ways known to the applicant of putting the invention into practice. But they are not the only ways in which this can be achieved. They are illustrated, and they will now be described, by way of example only. Common features between the assemblies of the different figures are referenced by common reference numerals.
The first handle grip 14 is for mounting to a first side of a leaf (not shown). The handle assembly includes a second handle grip 15, for mounting to a second, opposing side of the leaf, as shown in the assembly 10 of
As will be further described below, each handle assembly of the invention has a rest mode in which at least the second handle grip may be used for driving the latch means between a latched position and a released position. The handle assembly also has a locked mode in which the handle assembly is configured so that the second handle grip is prevented from being operable to drive the latch means. In the locked mode for example, the second handle grip may be blocked from rotating, or it may be rotatable, but not engaged with the drive mechanism. In some embodiments the handle assembly can be converted from the rest mode to the locked mode by pushing or pulling the first handle grip relative to the leaf. In other embodiments the handle assembly can be converted from the rest mode to the locked mode by pushing or pulling another element of the handle assembly relative to the leaf. Further details of various embodiments will be described below.
The second handle grip 15 is similarly pivotally mounted relative to the external housing 26 about a second handle axis B (which in this embodiment is coaxial with the first handle axis A). The second handle grip 15 is rotatable about second handle axis B between a closed position (as shown in
Referring to
Referring to
The back plate 23 of the external part of the handle assembly 10 has a cylindrical protruding portion 23a extending from the rearward side in the rearward direction, forming a cavity therein on the forward side with an opening facing forwardly. The cylindrical portion 23a receives the return spring 19, which in this embodiment is a helical compression spring, the rearward end of the spring 19 engaging the rearward side of the cylindrical portion 23a and the forward end of the spring 19 engaging the rearward side of bush 16. The spring 19 biases the second handle grip 15 away from the back plate 23.
The back plate 23 on the internal side of the handle assembly is substantially the same, but a mirror image through a mirror plane passing through the leaf.
The spindle means is a drive shaft, at least a portion of which has a square cross-section which couples to the handle grips and the drive mechanism 13 in use, for driving the latch means 11 between its latched and unlatched positions. The square shaped spindle part(s) and corresponding receiving bores may of course be of cross-sectional shapes other than square suitable for keying with a correspondingly shaped spindle bore, such as other polygonal shapes. Referring to
The second spindle 8 is coupled relative to the second handle grip 15 such that as the second handle grip 15 is rotated the second spindle 8 will move with it. Between the forward end of the second spindle 8 and the end of spindle bore 15a is a compression spring 15c which urges the second spindle 8 away from the second handle grip 15. At the rearward end of the second spindle 8 is a first portion 8a having a cross-sectional shape transverse to its longitudinal axis configured so that it can be received in a spindle bore 13a in the drive mechanism but such that it does not key with the spindle bore 13a, but instead can rotate freely therein. In this embodiment the first portion 8a has a circular cross-section, having a diameter slightly smaller than the width of the square spindle bore 13a. Adjacent the first portion 8a is a second portion 8b that is shaped in its cross-section so as to engage with the spindle bore 13a via a keying engagement. In this embodiment the second portion 8b has a square cross-section to key with the square spindle bore 13a.
The first spindle 7 also has a first portion 7a having a cross-sectional shape configured so that it can be received in a spindle bore 13a in the drive mechanism but such that it does not key with the spindle bore 13a, but instead can rotate freely therein. Adjacent the first portion 7a of the first spindle is a second portion 7b shaped in its cross-section so as to engage with the spindle bore 13a via a keying engagement. The first portion 7a has a circular cross-section and the second portion 7b has a square cross-section. In this embodiment the first portion 7a of the first spindle 7 is shorter than the first portion 8a of the second spindle 8.
In order to convert the handle assembly 10 from rest mode to the locked mode, in which the second handle grip 15 is prevented from being operable to drive the latch means, firstly the first handle grip 14 is pushed forwards relative to the handle assembly 10, axially along the first handle axis A in the direction of arrow F in
The handle assembly 10 is configured such that by carrying out a further step in the transition from rest mode to locked mode, the handle assembly 10 can be retained in the locked mode. The further step, after pushing the first handle grip 14 in towards the leaf, is to rotate the first handle grip 14 into a third angular position, as shown in
Referring to
The blocking means that, inter alia, retains the first handle grip 14 in the third position, has at least one blocking configuration in which the first handle grip 14 is prevented from being moved out of a predetermined position and a non-blocking configuration in which the first handle grip 14 is free to be rotated. In this embodiment the blocking means has two blocking configurations: a locked blocking configuration in which the first handle grip 14 is prevented from being moved out of its third position and a child safety blocking configuration in which the first handle grip 14 is prevented from being moved out of its closed position.
The blocking means comprises at least a first stop member and at least a first blocking formation, said blocking formation being coupled to the first handle grip 14 for movement therewith and engageable with the first stop member when the blocking means is in a blocking configuration. Referring to
The bush 16 has clips 16a for securing the annular body 32 thereto. The annular body 32 may alternatively be received around the first spindle 7. In alternative embodiments the protrusions 30, 31 may be arranged in some other manner such that they are coupled to rotate and translate as the first handle grip 14 does so.
Referring to
Referring to
Referring to
Referring to
The handle assembly 10 may be adapted to work for an opposite handed door. For example, a mirror image of the inner cover plate 22 may be provided, with the offset slots 43, 47 on the opposite side of the inner cover plate 22 from that shown in
Referring to
As with the handle assembly 10 of the embodiment of
In the rest mode as shown in
In order to convert the handle assembly 100 from rest mode to the locked mode, in which the second handle grip 115 is prevented from being used to operate the drive mechanism, the button 160 is pushed axially forwards relative to the leaf along second handle axis B along the direction of arrow F. The handle assembly 100 is shown in locked mode in
The button 160 is configured such that it latches in its depressed configuration as shown in
The button 160 for conversion of the handle assembly 100 between rest and locked mode can be provided instead of or in addition to a mechanism involving translation of the first handle grip 114 axially forwards relative to the leaf in order to convert the handle assembly 100 between rest and locked mode. The handle assembly 100 of
Referring to
As with the previous embodiments, the rearward end of the second spindle 208 is a first portion 208a having a circular cross-sectional shape, having a diameter slightly smaller than the width of the square spindle bore 213a. Adjacent the first portion 208a is a second portion 208b that is shaped in its cross-section so as to engage with the spindle bore 213a via a keying engagement. In this embodiment the second portion 208b has a square cross-section to key with the square spindle bore 213a.
In the rest mode as shown in
In order to convert the handle assembly 200 from rest mode to the locked mode, in which the second handle grip 215 is prevented from being used to operate the drive mechanism, the first handle grip 214 is pushed axially forwards relative to the leaf along handle axis A along the direction of arrow F. The handle assembly 100 is shown in locked mode in
The handle assembly 200 further comprises retaining means for retaining the handle assembly in the locked mode. The retaining means uses magnetic attraction to keep the handle assembly in the locked mode. Referring to
Referring to
Instead of having a magnet on the housing and a ferromagnetic body carried by the first handle grip 214, there may be a ferromagnetic body on the housing and a magnet carried by the first handle grip 214. Alternatively, both elements may be magnetic, but with opposing polarities facing one another.
The steel plate 232 may be any sort of element that is magnetically attracted to the corresponding element 260 on the housing. In this embodiment, the steel plate 232 is an annular shaped body like annular body 32 of the embodiment of
This handle assembly provides an easy way to lock the door to prevent others from gaining entry from outside. A user of this system will not accidentally lock themselves out as the handle assembly does not remain locked after a user has used the first handle grip to exit the door (as the handle assembly would return to rest mode).
Referring to
The handle assembly 300 includes blocking means transformable between a blocking configuration in which the first and second handle grips 314, 315 are not rotatable relative to the leaf and a non-blocking configuration in which the first and second handle grips 314, 315 are rotatable relative to the leaf. The blocking means is converted from the non-blocking configuration to the blocking configuration by translating the first handle grip 314 axially forwards relative to the leaf along handle axis A. The blocking means comprises an annular body 332 mounted on the forward end of the first handle grip 314 such that rotation or translation of the first handle grip 314 causes rotation or translation of the annular body 332 respectively. Like the annular body 32 of the embodiment of
When the handle assembly 300 is in rest mode as shown in
Like the handle assembly 200 of the embodiment of
The first handle grip 314 is biased rearwardly away from the leaf by a spring so that if a small pulling force is applied to the first handle grip 314 in order to overcome the magnetic attraction between the magnet and the annular body 332 when the handle assembly is in the locked mode, the first handle grip 314 will be urged rearwardly and the handle assembly will return to its rest mode.
Rather than a single spindle, the handle assembly 300 may have a spindle means comprising more than one spindle portion rigidly secured together into a single integral piece.
Referring to
When the handle assembly 400 is in rest mode, as shown in
In order to convert the handle assembly 400 from rest mode to the locked mode, in which the second handle grip 415 is prevented from being used to operate the drive mechanism, the first handle grip 414 is pushed axially forwards relative to the leaf along handle axis A along the direction of arrow F. The handle assembly 400 is shown in locked mode in
Like the handle assembly of the previous embodiment the handle assembly 400 has magnetic retaining means for retaining the handle assembly 400 in the locked mode. The handle assembly 400 has a magnet 460 mounted to the housing on the internal side of the handle assembly which retains the handle assembly in the locked mode via magnetic attraction between the magnet and the annular body 432, which is made of steel.
The first handle grip 414 is biased rearwardly away from the leaf by a spring so that if a small pulling force is applied to the first handle grip 414 in order to overcome the magnetic attraction between the magnet and the annular body 432 when the handle assembly is in the locked mode, the first handle grip 414 will be urged rearwardly and the handle assembly will return to its rest mode.
Any of the handle assemblies described above may include indicator means to indicate to a user whether the handle assembly is in the rest mode or locked mode. Indicator means will now be described with reference to
A first example of indicator means is a visual indicator means comprising a rest mode indicator on the internal side of the assembly which if visible indicates that the handle assembly is in the rest mode, whereas if it is not visible, this indicates that the handle assembly is in the locked mode. The handle assembly 500 includes a first coloured ring 570 on the internal side of the assembly which is visible when the handle assembly 500 is in the rest mode as shown in
The handle assembly 500 further includes a second coloured ring 571 on the external side of the handle assembly. The second coloured ring 571 is located at the forward end of the second handle grip 515. The second coloured ring 571 is visible when the handle assembly is in the locked mode, as shown in
The first and second coloured rings 570, 571 may be different colours from one another. For example the first coloured ring 570 may be green and the second coloured ring 571 may be red.
Alternatively a handle assembly may have an electrical indicator means to indicate whether the handle assembly is in rest mode or locked mode. The electrical indicator means comprises a switch at the forward end of second handle grip. Referring to
According to a further aspect of the invention there is provided a spindle means for a handle assembly having a sacrificial portion and a remainder portion, the sacrificial portion being configured for breaking away from the remainder portion if an attempt is made to snap the spindle means. Referring to
All of the embodiments may include biasing means to bias the handle assembly into the rest mode so that it returns to rest mode if urged out of locked mode by a user.
In handle assemblies 10, 100, 200, 300, 400, the handle grips are shown as lever type handle grips, however it will be understood that they could be knob type handle grips.
The embodiments described above relate to pushing of an element of the handle assembly forwards towards the leaf to convert the handle assembly from rest mode to locked mode, however it will be understood that the assemblies described herein could be modified such that pulling of the internal handle grip or some other element relative to the leaf converts the handle assembly from the rest mode to the locked mode.
A handle assembly of the present invention may additionally include a secondary lock for additional security. For example, the handle assembly 10 has a lock 2 operable by a key for additional security.
All of the handle assemblies of the present invention can be adapted for use with left handed or right handed doors.
Number | Date | Country | Kind |
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1803211 | Feb 2018 | GB | national |
Filing Document | Filing Date | Country | Kind |
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PCT/GB2019/050541 | 2/27/2019 | WO |
Publishing Document | Publishing Date | Country | Kind |
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WO2019/166800 | 9/6/2019 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
2702204 | Collier | Feb 1955 | A |
5947535 | Baker | Sep 1999 | A |
9371671 | Weathersby | Jun 2016 | B2 |
10458149 | Densmore | Oct 2019 | B2 |
10711485 | Li | Jul 2020 | B2 |
10837199 | Ou | Nov 2020 | B2 |
20060022011 | Ceravalls Pujol | Feb 2006 | A1 |
20090282652 | Maramba | Nov 2009 | A1 |
20190234108 | Li | Aug 2019 | A1 |
20200115921 | Alber | Apr 2020 | A1 |
Number | Date | Country |
---|---|---|
3844281 | Jun 1989 | DE |
746727 | Jun 1933 | FR |
1014173 | Dec 1965 | GB |
1072110 | Jun 1967 | GB |
1474652 | May 1977 | GB |
2241282 | Aug 1991 | GB |
2206639 | Dec 1991 | GB |
2255798 | Nov 1992 | GB |
2006030038 | Mar 2006 | WO |
2006086855 | Aug 2006 | WO |
Number | Date | Country | |
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20210032900 A1 | Feb 2021 | US |