External lock assembly with a pair of locking bolt members for sliding doors or windows incorporating an immobilizer device of at least one locking bolt member at locked condition

Abstract

An external lock assembly for sliding doors or windows comprising a pair of reciprocatingly moving sliding bolt carriage handle members (8a, 8b) that move locking bolt members (7a, 7b) and a pair of associated guide blocks (18a, 18b) fixedly mounted onto the body (12) of the lock assembly. At least one of the guide blocks is provided with a recessed region (20) adapted to accomodate an immobilizer member (21) that maintains at least one corresponding locking bolt member at locked condition. The immobilizer member (21) is pivotally mounted with a bottom extending shaft (22) that enters into a hole (20a) of the recessed region (20) and comprises a V-section body extension with adjacent sides (23a, 24a) and extreme edges (23, 24) respectively, while a slot (21a) of the immobilizer member (21) is adapted to receive a key implement (30) by means of which it is being rotated through a predetermined arc to bring one of the extreme edges (23, 24) thereof in abutment with a bottom end of a V-sectioned body portion (26) of the guide block thereby providing an immobilized status of the associated locking bolt member at a locked condition.

Claims

1. External lock assembly for a sliding door or window panel comprising a body member fixedly mounted onto a vertically extending side of the sliding door or window panel and provided with a pair of reciprocatingly moving locking bolt members, said lock assembly cooperating with a tubular bolt receiving member fixedly mounted onto an opposing vertically extending frame member, said body member of the lock assembly being an elongate profile member, rectilinear channels being provided along interior elongate lateral sides of the elongate profile member, locking mechanisms comprising sliding bolt carriage handle members and cooperating guide blocks being inserted within the elongate profile member, said guide blocks abutting a base of the elongate profile member and being fixedly mounted thereupon, said sliding bolt carriage handle members being provided with said locking bolt members extending at one end thereof and with linear plate members extending to end button formations at the other end thereof and being adapted to reciprocatingly slide within the rectilinear channels with said linear plate members in abutment with a lateral side of a body of said guide blocks to enable a locked or unlocked condition of the lock assembly as said end button formations of said linear plate members are engaged within recesses provided along said lateral side of the body of said guide blocks, a pair of coaxially aligned tubular members with an intermediate gap extending at one elongate side of the elongate profile member, said coaxially aligned tubular members being adapted to receive said bolt locking members extending at one end of the sliding bolt carriage handle members and said intermediate gap being configured to receive said tubular receiving member, said tubular receiving member being coaxially aligned with the pair of coaxially aligned tubular members of the elongate profile member whereby, consequent to a reciprocating movement of the sliding bolt carriage handle members, a locked condition of the lock assembly is being attained as the bolt locking members are inserted within said tubular receiving member, said lock assembly incorporating at least one immobilizer member for effecting immobilization of at least one of said pair of locking bolt members at a locked condition, said immobilizer member being accomodated within a recessed region of said guide block and being pivotally mounted with a shaft extension thereof into a hole of the recessed region of said guide block, said immobilizer member being provided with a V-section body extension with a first and a second adjacent sides extending to first and second extreme edges respectively, said guide block extending at a first terminal end comprising a linear terminal section being configured to provide flexibility of a spring means and a second terminal end being configured in a V-sectioned body portion, wherein as said immobilizer member rotates to a released condition, said second extreme edge thereof abuts said linear terminal section, whilst said first extreme edge thereof abuts a bottom end of said V-sectioned body portion, whereby the bolt locking member is free to move through reciprocating movement of the sliding bolt carriage handle member and as said immobilizer member rotates to an activated condition, said first side of the V-section thereof terminates in abutment with an inner surface of said V-sectioned body portion, whilst said second side thereof extends underneath the end button formation of the linear plate of the sliding bolt carriage handle member, thereby averting movement of the sliding bolt carriage handle member and of the bolt locking member thereof.

2. The external lock assembly for a sliding door or window panel of claim 1, wherein said at least one immobilizer member is provided with a slot adapted to receive a key implement by means of which said immobilizer member may be alternatively rotated in an activated postion thereby averting movement of said sliding bolt carriage handle member and of said bolt locking member thereof or in a released condition thereby allowing free movement of said sliding bolt carriage handle member and of said bolt locking member thereof.

3. The external lock assembly for a sliding door or window panel of claim 2, wherein a covering plug of said elongate profile member of the lock assembly is provided with a hole located proximally to the locking bolt member being immobilized by said immobilizer member, said hole being oriented above an underlying slot of the immobilizer member and being adapted to receive said key implement to allow insertion thereof into said underlying slot in order to effect rotation of the immobilizer member from an activated position of immobilization of said sliding bolt carriage handle member and of said bolt locking member thereof to a released position of allowance of free movement of said sliding bolt carriage handle member and of said bolt locking member thereof.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The invention will be made apparent to those skilled in the art by reference to the accompanying drawings in which:

(2) FIG. 1 shows a perspective view of a locked condition of the external lock assembly of the invention that comprises an elongate body with a pair of bolt locking members mounted onto a vertically extending side of the sash in a typical sliding door or window, wherein the sash has slided in abutment with the frame and the bolt locking members are brought in engagement condition through insertion within a tubular bolt receiving member mounted onto an opposing vertically extending side of the frame.

(3) FIG. 2 shows a perspective view of an unlocked condition of the external lock assembly of the invention wherein the bolt locking members have slided out of the tubular receiving member and the sash has slided away from the frame.

(4) FIG. 3 shows in perspective an exploded view of the external lock assembly of the invention including the tubular bolt receiving member thereof.

(5) FIG. 4 shows in perspective an exploded view of one first guide block portion of one of the sliding bolt carriage handle members of the lock assembly, of a rotatable member of an immobilizer device appropriately mounted at a frontal end thereof and of a key adapted to effect rotation of the rotatable member in order to securely immobilize or release the associated sliding bolt carriage handle member of the lock assembly.

(6) FIG. 5 shows a detail view of an unlocked condition of the rotatable member of the immobilizer device shown in FIG. 4 with the guide block portion shown in operative mode with the associated sliding bolt carriage handle member.

(7) FIG. 6 shows the detail view of FIG. 5 with the rotatable member of the immobilizer device in locked condition.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

(8) An illustrative embodiment of the lock assembly of the invention that comprises means of securely immobilizing at least one of the sliding bolt locking members whilst the latter has been brought at locked condition will be presented hereinbelow.

(9) The lock assembly of the invention is shown in a locked and an unlocked condition in FIG. 1 and in FIG. 2 respectively and is adapted to be used in sliding door or window panels with a sliding sash member 4 and a frame member 3. The lock assembly is particularly applicable in sash and frame profile systems made from aluminum or plastics or other material.

(10) As shown in the exploded view of FIG. 3, the lock assembly 1 of the invention comprises a body member 12 being configured as an elongate profile member with a base 13 and parallel lateral sides 14 and 15, wherein an arrangement of holes 13a is provided close to the ends of the base 13 and appropriate screws are employed to be driven through these holes 13a for fixedly mounting the body member 12 onto a vertically extending side of the sash member 4.

(11) A bolt receiving member 2 adapted to cooperate with the lock assembly 1 is accordingly fixedly mounted onto an opposing vertically extending frame member 3. Rectilinear channels 14a and 15a are provided along the interior elongate lateral sides 14, 15 of the elongate profile member respectively, such rectilinear channels 14a, 15a being adapted to receive locking mechanisms comprising sliding bolt carriage handle members 8a, 8b adapted to slide within the rectilinear channels 14a, 15a thereof with a scope of enabling a locked or unlocked condition of the lock assembly in cooperation with corresponding guide blocks 18a, 18b inserted through the ends of the elongate profile member and fixedly mounted onto the base 13 thereof.

(12) Coaxially aligned tubular members 16a, 16b with an intermediate gap 17 in between them extend along a longitudinal side of the elongate profile member facing the opposing vertically extending frame member 3, these tubular members 16a, 16b being adapted to receive the bolt locking members 7a and 7b of the sliding bolt carriage handle members 8a and 8b respectively. The abovementioned intermediate gap 17 is configured to receive a tubular section 5 with a through bore 6 of the bolt receiving member 2 that is mounted onto the vertically extending frame member 3 when the vertically extending side of the sliding sash 4 is brought in abutment with the vertically extending frame member 3 whereby the tubular section 5 of the receiving member 2 is coaxially aligned with the pair of coaxially aligned tubular members 16a, 16b of the body portion 12 and, as the bolt locking members 7a, 7b are inserted within the through bore 6 of the tubular section 5, a locked condition of the lock assembly is being attained.

(13) As shown in FIG. 3, the lock assembly of the invention comprises a pair of sliding bolt carriages 8a and 8b, each of the sliding bolt carriages 8a or 8b comprising a compact generally rectangular handle portion 31 with an opening 32 facilitating insertion of the hand of the user. Locking bolt members 7a and 7b are perpendicularly oriented at one end of the rectangular handle portion 31 of sliding bolt carriages 8a or 8b respectively, such locking bolt members being adapted to be inserted within the tubular members 16a and 16b and pass past these tubular members 16a, 16b within the central hole 6 of the frame mounted tubular receiving member 2, which fills the gap intermediately of the tubular members 16a, 16b when the lock assembly is brought at a locked condition.

(14) A linear plate 33 extends at the other end of the rectangular handle portion 31 which is slidable within a lower channel 14b provided underneath channel 14a of the elongate profile member. The linear plate 33 further extends to an end button formation 34. When the sliding bolt carriage 8a or 8b moves back and forth, the button formation 34 is being engaged within either recession 27 or recession 28 of the guide block 18a or 18b respectively as will be described hereinafter.

(15) As shown in FIG. 4, each guide block 18a or 18b comprises a main body portion 19 with parallel lateral sides 29a and 29b, such lateral sides 29a, 29b being adapted to slide within the channels 14a, 15a of the body portion 12 as the guide blocks 18a and 18b are inserted within the elongate profile member of the body portion 12, whilst the main body portion 19 of the guide blocks abuts onto the base 13 of the elongate profile member. The main body portion 19 further comprises a flattened basement portion 29c which is thus sized as to be left outside the elongate profile member when the main body portion 19 is inserted therein. A pair of through holes 19a pass through the main body portion 19 of each guide block 18a or 18b, these holes 19a coinciding with the corresponding holes 13a of the base 13 of the elongate profile member when the guide blocks 18a, 18b are inserted therein and a pair of screws pass through these holes 19a of the guide blocks 18a, 18b and the corresponding holes 13a of the elongate profile member to fixedly mount the guide blocks 18a, 18b onto the base 13 of the elongate profile member and subsequently fixedly mount base 13 with the guide blocks 18a, 18b mounted thereupon onto an ergonomically appropriate position of the vertically extending side of the sliding sash 4. After the parallel lateral sides 29a and 29b, the main body portion 19 extends forwardly into an arm member with a lateral side 33a, such arm member having a width approximately half of the main body portion 19, whereby the aforementioned linear plate 33 of the sliding bolt carriage 8a and 8b reciprocatingly moves in abutment with this lateral side 33a of the guide block 18a and 18b respectively. The lateral side 33a is provided with a pair of front and rear recessions 28 and 27 respectively at the two ends thereof, such recessions being adapted to receive the aforementioned end button formations 34 of the linear plates 33 of sliding bolt carriages 8a and 8b when the bolt locking members are alternatively brought at a locked and an unlocked condition respectively.

(16) Following the insertion of guide blocks 18a, 18b and sliding bolt carriages 8a and 8b into the elongate profile member of body portion 12 of the lock assembly, the open elongate profile member is covered by the covering plug 35 depicted in FIG. 3 that is provided with an elongate central recession 36 wherein the user places his fingers to grip and slide the sash 4 in a direction of rapprochement to the frame member 3 or in the opposite direction of displacing the sash to an opened condition. The covering plug 35 is provided with longitudinally extending fin members 37, which are adapted to snugly fit onto the lateral sides 14, 15 of the elongate profile member of body portion 12 of the lock assembly.

(17) The lock assembly of the invention incorporates at least one immobilizer device for effecting immobilization of at least one of the locking bolt members 7a, 7b at a locked condition, such immobilizer device being devised through an appropriate configuration of the guide block 18a and/or 18b so that it may accomodate a rotatable member 21 that is alternatively set at a position to provide an immobilized condition of at least one of the bolt locking members 7a, 7b or a released condition of the same consequent to rotation of a key implement 30. FIG. 3 shows the guide block 18a incorporating such an immobilizing configuration whereas guide block 18b does not incorporate the same.

(18) As shown in FIG. 4 a recessed region 20 is provided at a certain point of the lateral side 33a of the forwardly extending arm of the guide block 18a, such recessed region 20 being adapted to accommodate a rotatable immobilizer member 21 that is provided with an upper slot 21a adapted to receive an appropriately formed end 30a of a key implement 30 by means of which the immobilizer member 21 is rotated within a predetermined arc clockwise or counterclockwise to effect immobilization of bolt locking member 7a at a locked condition or release of the same. The immobilizer member 21 is provided with a V-section body extension with adjacent sides 23a, 24a and extreme edges 23 and 24 respectively and is further provided with a bottom extending shaft 22 that is adapted to enter into a hole 20a of the recessed region 20 and provide pivotal mounting of the immobilizer member 21 within the recessed region 20, whereby the immobilizer member 21 is flush with the surface of the body 19 of the guide block 18a. Past the immobilizer member 21, the lateral side 33a resumes the thickness of body 19 and extends at terminal ends, a first terminal end comprising a linear terminal section 25 that has been appropriately thinned through removal of plastic material in order to provide the flexibility of a spring means and a second terminal end being configured in a V-sectioned body portion 26. As the immobilizer member 21 rotates to a released condition, the abovementioned extreme edge 23 thereof abuts the linear terminal section 25, whilst the other extreme edge 24 abuts a bottom end of V-sectioned body portion 26 as shown in FIG. 5, whereby the bolt locking member is free to move through reciprocating movement of the sliding bolt carriage device 8a. As shown in FIG. 6, the immobilization function is activated and the bolt locking member 7a is immobilized when the immobilizer member 21 is rotated clockwise and side 24a of the V-section thereof terminates in abutment with an inner surface 26a of V-sectioned body portion 26, whilst an adjacent inner surface 23a of immobilizer member 21 extends underneath the end button formation 34 of linear plate 33 of the sliding bolt carriage device 8a, thereby averting movement of the latter and of the bolt locking member 7a thereof that is being maintained at a locked condition until the immobilizer member 21 is rotated anticlockwise in a released (idle) condition.

(19) A hole 38 illustratively shown in FIG. 1 and in FIG. 2 is provided close to the upper and/or lower end of the covering plug 35 and the key implement 30 is adapted to enter through this hole 38 in order to enter into the underlying slot 21a and effect rotation of the immobilizer member 21 from an idle to an active condition and vice versa.

(20) Whilst the hole 38 is depicted to be located at the proximity of locking bolt member 7a for a lock assembly that is adapted to provide immobilization of locking bolt member 7a, another embodiment might provide immobilization of locking bolt member 7b and another embodiment might provide immobilization of both locking bolt members 7a and 7b.

(21) As shown in FIG. 3, the frame mounted locking bolt receiving member 2 that is employed in cooperation with external lock assembly 1 comprises a generally linear plate 9 that is being bent at right angles to form at the inner end thereof a plate 10 that is fixedly mounted onto the vertically extending post of frame member 3 by means of screws 11, whilst at the other end thereof, the linear plate 9 extends to the tubular section 5 with the through bore 6 that protrudes forwardly the frame member 3 and is being adapted to enter in the aforementioned gap 17 of tubular members 16a, 16b of the lock assembly 1 that is mounted onto the opposing vertically extending side of the sash 4.