Patent Application
20220178166
The present invention relates to an auxiliary lock, and more particularly, to an auxiliary lock with a reinforcement structure to protect the inside housing from being deformed by impact.
Locks are usually installed to an object such as a door so as to have safety feature. The lock is locked and unlocked by using a correct key. Generally, a lock cylinder is equipped in the lock and includes a keyhole which faces outside of the door, and a turn piece is installed to the lock and located in the room. The users may turn the turn piece of lock or unlock the lock from inside of the room.
However, the unauthorized person may try to unlock the lock by damaging the outside housing and picking the lock cylinder out so that the lock fails to lock the door. In other words, by hitting the outside housing and picking the lock cylinder is able to fail the lock regardless of sophisticate structure of the lock. It is obvious that the lock needs a reinforcement structure to prevent the outside housing and lock cylinder from being damaged.
Therefore, another auxiliary lock is provided, which provides a reinforcement housing to outside of the lock cylinder. The s reinforcement housing is made of zinc or aluminum alloy die casting. Although it has a very high structural strength, it requires a lot of material, and the processes of making it is complicated, so that the retail price is high and difficult for consumers to accept.
The auxiliary lock usually includes an outside housing to accommodate the lock cylinder, and the outside housing includes threaded holes. Bolts extend through the mounting plate and are threadedly connected to the threaded holes to assemble the outside housing. However, there is no integrated fixation between the outside housing and the lock cylinder, resulting in less stability of the whole auxiliary lock. In addition, the outside housing can only be applied to a fixed door bore, so its applicability is also extremely limited.
The present invention intends to provide an auxiliary lock with a reinforcement structure to eliminate the shortcomings mentioned above.
The present invention relates to an auxiliary lock and comprises an inside housing which is a tubular housing and mounted to a lock cylinder in the radial direction of the inside housing. A first flange extends axially from one of two ends of the inside housing. A mounting plate is mounted to the lock cylinder in the axial direction of the lock cylinder and contacts the inside housing. The mounting plate includes a second flange extending axially therefrom, and the second flange is mounted to the outside of the first flange of the inside housing.
Preferably, the second flange is mounted to the outside of the first flange of the inside housing by way of pressing.
Preferably, the second flange includes a bent portion which is formed by bending inward the distal end of the second flange. A space is formed between the bent portion and the second flange. The first flange of the inside housing is located in the space. The bent portion is mounted to the outside of the first flange of the inside housing.
Preferably, the mounting plate includes an annular face extending therefrom and opposite to the inside housing. An end face is formed to the distal end of the annular face.
Preferably, the end face includes a protrusion extending from the inside thereof which faces the lock cylinder. When the mounting plate is mounted to the lock cylinder, the protrusion contacts the lock cylinder in the axial direction of the lock cylinder.
Preferably, the end face of the mounting plate includes at least one guide slot which includes a first hole and a second hole which communicates with the first hole. The diameter of the first hole is larger than that of the second hole,
Preferably, the auxiliary lock further includes a housing ring that includes a contact face and a central hole. The contact face is located corresponding to the annular face. The central hole is located corresponding to the end face. At least one extension extends axially from the housing ring and opposite to the mounting plate. The contact face includes at least one pin which is located corresponding to the at least one guide slot. The at least one pin includes a shank which has a contact portion formed to the first end of the shank. The diameter of the shank is sized corresponding to the second hole. The diameter of the contact portion is sized corresponding to the first hole.
Preferably, the contact face includes at least one assembly hole, and the at least one pin is engaged with the at least one assembly hole.
Preferably, the at least one assembly hole communicates with an inclined hole which is located opposite to the contact face of the housing ring. The diameter of the inclined hole increases toward the direction opposite to the contact face. The shank includes an engaging portion and a positioning portion respectively formed to the second end thereof. The engaging portion is located corresponding to the least one assembly hole. The positioning portion is located corresponding to the inclined hole.
Preferably, the lock cylinder includes a first fixing hole. The end face of the mounting plate includes an aperture located corresponding to the first fixing hole. A locking member extends through the aperture from the outside of the end face and is connected to the first fixing hole.
Preferably, the locking member includes a threaded section and a head. The threaded section is threadedly connected to the first fixing hole. The diameter of the head is larger than that of the aperture. When the threaded section is threadedly connected to the first fixing hole, the head contacts the end face.
Preferably, an outside housing is mounted to the inside housing.
Preferably, the lock cylinder includes a lip extending radially therefrom. The outside housing includes a concaved surface located corresponding to the lip.
Preferably, the inside housing includes a through hole located corresponding to the lock cylinder. The outside housing includes a tubular portion extending from one end opposite to the inside housing and toward the inside housing. The tubular portion has a path defined centrally therethrough. The lock cylinder extends through the path. The outer periphery of the tubular portion contacts the inner periphery of the through hole.
Preferably, the tubular portion of the outside housing is made by way of pressing.
Preferably, the decoration cover is mounted to the outside housing.
Preferably, the inside housing is a tapered and tubular housing.
Alternatively, the present invention also provides an auxiliary lock that comprises an inside housing which is a tapered and tubular housing and includes a first end and a second end which is larger than the first end of the inside housing. A first flange extends axially from the second end of the inside housing. A mounting plate is mounted to the lock cylinder in the axial direction of the mounting plate and contacts the inside housing. The mounting plate includes a second flange extending axially therefrom. The second flange is mounted to the outside of the first flange of the inside housing.
Preferably, the second flange is mounted to the outside of the first flange of the inside housing by way of pressing.
The advantages of the present invention are that the lock cylinder is protected and reinforced in the radial direction by the overlapped first and second flanges. When the inside housing is hit, the inside housing does not expand outward to be pried up. The reinforcement structure is made by way of pressing to use less material and to reduce the manufacturing cost.
The protruded end face of the mounting plate is adapted to be installed to a door with small hole. When the door includes a large hole, the present invention is able to be installed to the door by using the housing ring. The mounting plate includes the guide slot, and the housing ring includes the pin which extends through the guide slot, and the housing ring is rotated to assemble the housing ring to the mounting plate without using any tool. The assembling steps are easy and the applicability of the auxiliary lock is optimized.
The lock cylinder includes a fixing hole and the end face of the mounting plate includes an aperture so that locking member extends through the aperture and is threadedly connected to the fixing hole to securely connect the lock cylinder to the mounting plate so as to form a one-piece unit with the inside housing to reinforce the strength of the auxiliary lock and to position the lock cylinder. When replacing the lock cylinder, simply by removing the locking member from the fixing hole to replace the lock cylinder.
The present invention will become more obvious from the following description when taken in connection with the accompanying drawings which show, for purposes of illustration only, a preferred embodiment in accordance with the present invention.
Referring to
A mounting plate 3 is mounted to the lock cylinder 2 in the axial direction “X” of the lock cylinder 2 and contacts the inside housing 1. The mounting plate 3 includes a second flange 31 extending axially therefrom. The second flange 31 is mounted to the outside of the first flange 11 of the inside housing 1. The radial direction “R” and the axial direction “X” is based on the orientation of the inside housing 1 or the lock cylinder 2 so as to meet the mutual positioning relationship between the inside housing 1, the mounting plate 3 and the lock cylinder 2, but not limited thereto.
As shown in
The inside housing 1 can be made by way of pressing to use less material and to reduce the manufacturing cost. In another embodiment, the inside housing 1 can also be a solid or hollow metal casting part. In this embodiment, the second flange 31 is mounted to the outside of the first flange 11 of the inside housing 1 by way of pressing. Of course, riveting can also be applied after the second flange 31 is mounted to the outside of the first flange 11 to further strengthen the connection.
It is also noted that the second flange 31 is not necessarily completely matched the outside of the first flange 11. In other words, a gap is formed between the second flange 31 and the first flange 11 is also included within the scope of the present invention. In this embodiment, the second flange 31 includes a bent portion 311 which is formed by bending inward the distal end of the second flange 31. A space 312 is formed between the bent portion 311 and the second flange 31. The first flange 11 of the inside housing 1 is located in the space 312, and the bent portion 311 is mounted to the outside of the first flange 11 of the inside housing 1.
The mounting plate 3 is designed to allow the auxiliary lock of the present invention to be installed to a door hole (not shown). The mounting plate 3 includes an annular face 32 extending therefrom and opposite to the inside housing 1. An end face 33 is formed to the distal end of the annular face 32. The end face 33 is able to be installed into the door hole when installing the auxiliary lock to a door.
The mounting plate 3 is made by way of pressing, and the end face 33 is a protruded portion which contacts the lock cylinder 2 in the axial direction “X”. In this embodiment, the mounting plate 3 includes a protrusion 331 extending from the inside thereof which faces the lock cylinder 2. When the mounting plate 3 is mounted to the lock cylinder 2, the protrusion 331 contacts the lock cylinder 2 in the axial direction “X” of the lock cylinder 2 so as to avoid the end face 33 from affecting the positioning of the lock cylinder 2. The protrusion 331 can also be made during the pressing process to the mounting plate 3.
Because the door holes of different doors may not the same, so that the annular face 32 of the mounting plate 3 may have spare holes so that when the door hole is larger than the end face 33, other parts can be installed to the mounting plate 3. In this embodiment, the end face 32 of the mounting plate 3 includes at least one guide slot 34 which includes a first hole 341 and a second hole 342 which communicates with the first hole 341. The diameter of the first hole 34 is larger than that of the second hole 342. The guide slot 34 is used to be connected with a housing ring 4. In this embodiment, the housing ring 4 includes a contact face 41 and a central hole 42. The contact face 41 is located corresponding to the annular face 32. The central hole 42 is located corresponding to the end face 33. At least one extension 43 extends axially from the housing ring 4 and opposite to the mounting plate 3. The contact face 41 include at least one pin 5 which is located corresponding to the at least one guide slot 34. The at least one pin 5 includes a shank 51 which has a contact portion 52 formed to the first end of the shank 51. The diameter of the shank 51 is sized corresponding to the second hole 342, and the diameter of the contact portion 52 is sized corresponding to the first hole 341. As shown in
The pin 5 and the housing ring 4 can be formed to be a one-piece unit. In this embodiment, the contact face 41 includes at least one assembly hole 411, and the at least one pin 5 is engaged with the at least one assembly hole 411. Specifically, the at least one assembly hole 411 communicates with an inclined hole 412 which is located opposite to the contact face 41 of the housing ring 4. The diameter of the inclined hole 412 gradually increases toward the direction opposite to the contact face 41. The shank 51 includes an engaging portion 53 and a positioning portion 54 respectively formed to the second end thereof. The engaging portion 53 is located corresponding to the least one assembly hole 411, and the positioning portion 54 is located corresponding to the inclined hole 412. The pin 5 can be made by flexible material so that the pin 5 is easily inserted into the assembly hole 411 to make the positioning portion 54 engaged with the inclined hole 412. The diameter of the inclined hole 412 gradually increases toward the direction opposite to the assembly hole 411, so that when the shank 51 of the pin 5 moves to the first hole 341, the positioning portion 54 and the contact portion 52 respectively contacts the inner periphery of the inclined hole 412 and the end face 33 to position the mounting plate 3 and the housing ring 4 in the axial direction “X”. The mounting plate 3 and the housing ring 4 do not shift by a force applied to them.
As shown in
As shown in
For the axially positioning of the outside housing 6 and the lock cylinder 2, the lock cylinder 2 includes a lip 23 extending radially therefrom. The outside housing 6 includes a concaved surface 63 located corresponding to the lip 23. The tubular portion 61 is located at the distal end of the concaved surface 63 so that the lock cylinder 2 is axially installed into the outside housing 6, and the lip 23 is axially in contact with the concaved surface 63. When the locking member 333 is connected between the lock cylinder 2 and the inside housing 1, the lip 23 of the lock cylinder 2 contacts the concaved surface 63 of the outside housing 6. The mounting plate 3 is located in the housing 1 so that the inside housing 1, the lock cylinder 2, the mounting plate 3 and the outside housing 6 are assembled to be a one-piece unit which is convenient for the users to install after purchasing the auxiliary lock of the present invention.
In addition, a decoration cover 7 is mounted to the outside housing 6 to have a decorated appearance and to have a protection feature to the outermost of the auxiliary lock, therefore, the lock cylinder 2 is protected from being hit.
The auxiliary lock of the present invention is cooperated with a deadbolt 8 which includes a cam slot 81. The lock cylinder 2 includes a driving bar 22 which extends through the cam slot 81 and the mounting plate 3 so that the lock cylinder 2 is locked or unlocked by the driving bar 22. The lock cylinder 2 has one of two ends thereof located at the outside of the door, and another one of the two ends of the lock cylinder 2 is located in the door. A turn piece assembly 9 is located at the inside of the door and is connected to the driving bar 22 and the deadbolt 8. The turn piece assembly 9 includes a body 91 which has at least one bore 92. The lock cylinder 2 includes a second fixing hole 24 which is located corresponding to the at least one bore 92. The mounting plate 3 includes an end hole 35 which is located corresponding to the at least one bore 92 and the second fixing hole 24. A bolt 93 extends through the at least one bore 92 and the end hole 35, and is connected to the second fixing hole 24, such that the auxiliary lock of the present invention is installed to the door and is able to lock and unlocked.
While we have shown and described the embodiment in accordance with the present invention, it should be clear to those skilled in the art that further embodiments may be made without departing from the scope of the present invention.
| Number | Date | Country | Kind |
|---|---|---|---|
| 111201190 | Jan 2022 | TW | national |
| Number | Date | Country | |
|---|---|---|---|
| Parent | 16528850 | Aug 2019 | US |
| Child | 17678391 | US |
