GEAR LATCH-BOLT MECHANISM

Information

  • Patent Application
  • 20090113957
  • Publication Number
    20090113957
  • Date Filed
    October 29, 2008
    16 years ago
  • Date Published
    May 07, 2009
    15 years ago
Abstract
A mortise lock for mounting in a door. The lock includes a bolt movable along a first axis between a first, extended position and a second, retracted position. The bolt has an end which, when the bolt is in its first, extended position and when the door is moved to a closed position, engages a strike which urges the bolt toward its second, retracted position. Also included are means for biasing the bolt to its first, extended position. The lock further includes a driven member which is mounted for rotation about a second axis. The second axis is generally perpendicular to the first axis. As the driven member is made to rotate about the second axis, it engages the bolt and urges it, overcoming the bias, to its second position. A drive member is mounted for rotation about a third axis, generally parallel to the second axis. The drive member rotates between a neutral position in which a tooth extending from the drive member does not engage the driven member nor initiate rotation of the driven member, and a rotated position in which the tooth engages the driven member to move it into engagement with the bolt and urge the bolt to its second position.
Description
TECHNICAL FIELD

The present invention is a door mortise lock. The mechanism described is related to a latch used in a door to constrain it closed, when in an extended position, and allow door opening when in a retracted position.


BACKGROUND OF THE INVENTION

Latches carried by a door to effect secure locking are very common. They typically include a latch bolt enclosed within a housing. Many are rotationally actuated and bi-directional. This means they are actuated by either clockwise or counter-clockwise handle rotation. In a neutral or un-actuated position, the bolt is extended from the housing and precludes door opening when the bolt is engaged in a typical strike plate. Handle rotation retracts the latch bolt to disengage the bolt from the strike plate and allow the door to be opened. Typically, closing of the door imparts a force upon the bolt by the strike plate or door frame to retract the bolt without manual handle rotation being required.


Many latch mechanisms today rely on cams for actuation. This involves the generation of friction between cam body surfaces and creates wear under conditions of cyclical use. Additionally, some mechanisms require significant handle rotation (more than 45°) to retract the bolt within its housing. What is needed, therefore, is a latch mechanism which retracts the latch bolt with less than 45° rotation and eliminates frictional wear typically brought to bear upon sliding cam surfaces. The present invention offers solutions to these problems.


SUMMARY OF THE INVENTION

The present invention is a mortise lock which employs a gear latch bolt mechanism which includes at least one toothed member received in a latch-housing. A handle is mechanically coupled to a drive member for moving the bolt between an extended and a retracted position. The mechanism also includes a driven member, actuable by the drive member, which acts upon the bolt to move it from a first, extended position to a second, retracted position. Both the drive member and the driven member may employ involute gear profiles. As a result, rotation of the drive member imparts force to the driven member with only minimal frictional force at a location of engagement. The driven member then linearly retracts the bolt by means of a projection extending from the driven member into a receiver of the bolt.


The mechanism described can incorporate two sets of drive and driven members, which can be substantially identical to each other, to retract the bolt. Such a construction allows for bi-directional actuation (that is, either clockwise or counter-clockwise handle rotation) to retract the bolt. It will be understood that the handle rotational angle required to retract the bolt is a function of the geometry of the driven member related to the bolt.


The present invention is thus an improved mortise lock mechanism. More specific features and advantages obtained in view of those features will become apparent with reference to the Detailed Description of the Invention, appended claims and accompanying drawing figures.





BRIEF DESCRIPTION OF THE DRAWINGS


FIG. 1 is an isometric view of the present invention;



FIG. 2 is an alternate perspective view of the structure of FIG. 1;



FIG. 3 is an exploded isometric view of the invention;



FIG. 4 is an isometric view of the mechanism housing;



FIG. 5 is an isometric view of the mechanism cover;



FIG. 6 is an isometric view of the mechanism bolt;



FIG. 7 is an alternate perspective view of the structure of FIG. 6;



FIG. 8 is an isometric view of the mechanism drive member;



FIG. 9 is an isometric view of the mechanism driven member;



FIG. 10 is a perspective view of the mechanism with the bolt extended and the cover removed;



FIG. 11 is a side view of the mechanism with the bolt retracted and the cover removed; and



FIG. 12 is a side view of the mechanism with the bolt retracted as a result of driven member rotation, and the cover removed.





DETAILED DESCRIPTION OF THE INVENTION

Referring to FIG. 3 and appended Component Description List, illustrated are the basic components of the present gear latch-bolt mechanism. Included are a housing 110, bolt springs 250A and 250B, two drive members 170A and 170B, two driven members 190A and 190B, a bolt 150 and a cover 130.


The latch assembly is more specifically described referring to FIGS. 3-9. A drive member 170A has a drive bearing 172 which is inserted in the housing 110 gear opening 114, shown in FIG. 4, and positioned with the drive tooth 180 oriented extending toward the bolt opening 118. The driven member 190 post receiver 192 is positioned over the housing post 112 such that the roll post 202 is positioned similar to the orientation shown in FIG. 3 for driven member 190A. The bolt wear surface 164 is fed into the housing bolt opening 118 and placed such that the roll post 202 of the driven gear is received within the peg receiver 166. The identical drive member 170B is then positioned over the first drive member 170A such that the alignment guide 174 from the drive member 170B aligns with the alignment receiver 176 of the drive member 170A. It will be understood that the alignment guide 170A would align with the alignment receiver 176 of the drive member 170B. The drive members are then in engagement with the respective planar surfaces 178A and 178B touching. The interlocking feature eases spindle insertion but is not required for latch functionality. The second driven member 190B which is substantially identical to driven member 190A is then positioned by aligning the post receiver 192 with the post 112 such that the roll post 202 of driven member 190B is received within the peg receiver 156 of the bolt. It will be understood that the length of peg receiver 156 along its axis and the length of the upper extending portion of driven member 90B are such that the driven member extension will always remain captured in peg receiver 156 so as to preclude a lockout situation. The two identical bolt springs 250 are then inserted such that they are linearly constrained by the bolt spring supports 160 and 161, and the spring guides 155 and 158 and the spring receiver 116 of the housing and the spring receiver 142 of the cover 130. It should be understood that the bolt springs exert a force upon the bolt that biases the bolt toward an extended position. The cover 130 bolt end 132 is then inserted in the bolt opening 118, and the cover post opening 134 is positioned over the post 112 in conjunction with the drive bearing 172 of the drive member 170B being positioned within the gear opening 136 of the cover. The post 112 is then deformed to constrain the cover 130 to the housing 110 encapsulating the latch components.


The function of the latch is described below. The cover is not shown in FIGS. 10-12 to allow understanding of internal component interaction. Referring to FIG. 10, the latch is shown in the neutral or un-actuated position in which the bolt is in an extended position relative to the housing. In this position, the compression springs are shown in a pre-loaded, but extended position. The drive members are in a neutral position. The driven members are in a float position and are rotationally limited by the drive member and bolt peg receiver geometry. The bolt is restricted from extending further due to the interaction of the housing bolt stop 152 and the cover bolt stop 154 with the housing stop guide 120 and cover stop guide 140.



FIG. 11 depicts the latch with the bolt retracted by means other than the rotation of a handle. Such retraction can result as from a door closing and the attendant bolt and strike or door frame interaction. As shown in FIG. 11, the drive members may remain in a neutral position, but the driven gears are rotated as a result of interaction of the bolt outer surface 157 and 167 and the roll surface 200 of both driven members 190A and 190B. As shown in FIG. 11, the driven tooth 196 is rotated away from the drive tooth 180, which remains in the neutral position. The bolt may be limited in retraction by the interaction of the housing and cover bolt stops. Also, the contact of the bolt rear stop 169 with the housing rear wall 122.


Referring to FIG. 12, the latch is shown with the bolt retracted by means of the driven member rotation in a counter-clockwise direction. This is typically accomplished by means of a handle with a spindle attachment insertable through the spindle receiver 182 of the drive member. In this figure it is seen that the tooth of the drive member interacts with the driven member, and the roll guide 194 engages the inner surface 159 and retracts the bolt within the latch. This causes the bolt springs to be compressed such that, when the rotational force on the drive member is released, the bolt is again biased to an extended position. The functioning of the latch is similar for clockwise handle rotation as viewed in FIG. 12. The difference is that the acting drive member is 170A and driven member is 190A rather than 170B and 190B as with counter-clockwise actuation.


It will be understood that the driven member, irrespective of which force transmission train is operative, functions as a first-class lever. That is, forces applied to an extension of the driven member by the corresponding drive member extending on a side of the axis of rotation of the driven member opposite that at which a second extension of the driven member engages the bolt within its receiver. This is in contrast to prior art devices. Consequently, the present invention achieves a high level of efficiency.

















Component
Feature
Description









100

Gear Latch-Bolt Mechanism



110

Housing




112
Post




114
Gear opening




116
Spring receiver




118
Bolt opening




120
Stop guide




122
Rear wall



130

Cover




132
Bolt end




134
Post opening




136
Gear opening




140
Stop guide




142
Spring receiver



150

Bolt




152
Housing bolt stop




154
Cover bolt stop




155
Spring guide




156
Peg receiver




157
Outer surface




158
Spring guide




159
Inner Surface




160
Spring support




161
Spring support




164
Bolt wear surface




166
Peg receiver




167
Outer surface




168
Inner surface




169
Rear stop



170 (A&B)

Drive Member, Housing Side




172
Drive bearing




174
Alignment guide




176
Alignment receiver




178
Planar surface




180
Drive tooth




182
Spindle receiver



190 (A&B)

Driven Member




192
Post receiver




194
Roll guide




196
Driven tooth




200
Roll surface




202
Roll post



250 (A&B)

Bolt Spring










It will be understood that this disclosure, in many respects, is only illustrative. Changes may be made in details, particularly in matters of shape, size, material, and arrangement of parts without exceeding the scope of the invention. Accordingly, the scope of the invention is as defined in the language of the appended claims.

Claims
  • 1. A mortise lock for mounting in a door, comprising: (a) a bolt mechanism including a bolt movable along a first axis between a first, extended position and a second, retracted position, said bolt having an end, wherein, when said bolt is in said first, extended position thereof and when the door is rotated to a closed position, said end engages a strike or door frame which urges said bolt toward said second, retracted position;(b) means for biasing said bolt to said first, extended position;(c) a driven member mounted for rotation about a second axis, generally perpendicular to said first axis, to engage said bolt mechanism and urge it, against biasing of said biasing means, to said second position; and(d) a drive member mounted for rotation about a third axis, generally parallel to said second axis, between a neutral position in which a tooth extending from said drive member does not engage said driven member nor initiate rotation of said driven member, and a rotated position in which said tooth engages said driven member and moves said driven member into engagement with said bolt mechanism to urge said bolt mechanism to said second position thereof.
  • 2. The mortise lock of claim 1 wherein, when the door is rotated to the closed position and the end of said bolt engages the strike and said bolt is urged toward said second, retracted position, said driven member does not cause abrasion between said tooth extending from said drive member and said driven member when said drive member is in its neutral position.
  • 3. The mortise lock of claim 1, wherein an angle between said neutral and rotated positions of said drive member is small.
  • 4. The mortise lock of claim 3, wherein said angle between said neutral and rotated positions of said drive member is less than 45 degrees.
  • 5. The mortise lock of claim 3, wherein said angle between said neutral and rotated positions of said drive member is less than 22 degrees.
  • 6. A mortise lock for mounting in a door, comprising: (a) a bolt mechanism including a bolt movable along a first axis between a first, extended position and a second, retracted position, said bolt having an end, wherein, when said bolt is in said first, extended position thereof and when the door is rotated to a closed position, said end engages a strike or door frame which urges said bolt toward said second, retracted position;(b) means for biasing said bolt to said first, extended position;(c) a first driven member mounted for rotation about a second axis, generally perpendicular to said first axis, to engage said bolt mechanism and urge it, against biasing of said biasing means, to said second position; and(d) a first drive member mounted for rotation about a third axis, generally parallel to said second axis, between a neutral position in which a tooth extending from said first drive member does not engage said first driven member nor initiate rotation of said first driven member, and a rotated position in which said tooth engages said first driven member and moves said first driven member into engagement with said bolt mechanism to urge said bolt mechanism to said second position thereof;(e) a second driven member mounted for rotation about said second axis offset axially from said first driven member, to engage said bolt mechanism and urge it, against biasing of said biasing means, from said first to said second position when rotated in a direction opposite to that of said first driven member when engaging said bolt mechanism;(f) a second drive member mounted for rotation about said third axis, between a neutral position in which a tooth extending from said second drive member does not engage said second driven member nor initiate rotation of said second driven member, and a rotated position in which said tooth extending from said second drive member engages said second driven member and moves said second driven member into engagement with said bolt mechanism to urge said bolt mechanism to said second position thereof.
  • 7. The mortise lock of claim 1 wherein each of said drive members and corresponding driven members have involute gear profiles arranged such that rotation of said drive members can engage and rotate corresponding of said driven members.
  • 8. The mortise lock of claim 6 wherein both said first drive member and said first driven member have involute gear profiles arranged such that rotation of said first drive member can engage and rotate said first driven member, and wherein both said second drive member and said second driven member have involute gear profiles arranged such that rotation of said second drive member can engage and rotate said second driven member.
CROSS-REFERENCE TO RELATED APPLICATIONS

This is a regular application filed under 35 U.S.C. § 111(a) claiming priority, under 35 U.S.C. § 119(e) (1), of provisional application Ser. No. 60/983,442, previously filed Oct. 29, 2007 under 35 U.S.C. § 111(b).

Provisional Applications (1)
Number Date Country
60983442 Oct 2007 US