Press-style auxiliary lock

Information

  • Patent Grant
  • 6378916
  • Patent Number
    6,378,916
  • Date Filed
    Tuesday, April 25, 2000
    24 years ago
  • Date Issued
    Tuesday, April 30, 2002
    22 years ago
Abstract
A press-style auxiliary lock for a door, a cabinet, a drawer, etc. is not used for anti-theft, or anti-prying open, but only used for secured to its place, not self-opening, not swaying or vibrating by external environmental condition. It includes a press member to push a drive means to rise and push up an engage means, which cannot then move down, and also bringing interactive rods rotate to extend hooks out of the lock to rotate and hook to achieve inserting engagement and hooking engagement by a single press action. When it is not pressed in, an object provided with the lock is normally secured in its place, and when pressed once, it may be secured to its place by inserting engagement and hooking engagement.
Description




BACKGROUND OF THE INVENTION




This invention relates to a press-style auxiliary lock, particularly to one mainly for securing to its place, not self-opening, not swaying or vibrating owing to exterior movement, not for anti-theft, used for various doors, cabinets, drawers, etc.




SUMMARY OF THE INVENTION




This invention offers a press-style auxiliary lock, having the following objectives and functions.




1. It is used to automatically secure a door, a cabinet, a drawer, etc. to its place, but normally opened very conveniently.




2. It can achieve inserting and engaging function by pressing in, further producing double stabilization, (inserting engagement and hooking engagement). preventing them from self-opening.




3. It can be applied to doors, cabinets, drawers in ships, or earthquake-prone areas, keeping them surely closed, not self-opening in case of sway and earthquakes, etc.











BRIEF DESCRIPTION OF DRAWINGS




This invention will be better understood by referring to the accompanying drawings, wherein:





FIG. 1

is a rear view of an outer housing in the present invention.





FIG. 2

is an upper view of FIG.


1


.





FIG. 3

is a right side view of FIG.


1


.





FIG. 4

is a rear view of an inner housing in the present invention.





FIG. 5

is an upper view of FIG.


4


.





FIG. 6

is a right side view of FIG.


4


.





FIG. 7

is a side view of a press member in the present invention.





FIG. 8

is a right side view of FIG.


7


.





FIG. 9

is an upper view of FIG.


7


.





FIG. 10

is a front view of a grip in the present invention.





FIG. 11

is an upper view of FIG.


10


.





FIG. 12

is a cross-sectional view of the line


12





12


in FIG.


10


.





FIG. 13

is a front view of a decorative cap of a press hole in the present invention.





FIG. 14

is an upper view of FIG.


13


.





FIG. 15

is a front view of an engage means in the present invention.





FIG. 16

is an upper view of FIG.


15


.





FIG. 17

is a right side view of FIG.


15


.





FIG. 18

is a cross-sectional view of the line


18





18


in FIG.


15


.





FIG. 19

is a front view of a drive means in the present invention.





FIG. 20

is an upper view of FIG.


19


.





FIG. 21

is a right side view of FIG.


19


.





FIG. 22

is a cross-sectional view of the line


22





22


in FIG.


19


.





FIG. 23

is a front view of a left interactive means in the present invention.





FIG. 24

is an upper view of FIG.


23


.





FIG. 25

is a left side view of FIG.


23


.





FIG. 26

is a front view of a right interactive rod in the present invention.





FIG. 27

is an upper view of FIG.


26


.





FIG. 28

is a right side view of FIG.


26


.





FIG. 29

is a front view of a restrain plate in the present invention.





FIG. 30

is an upper view of FIG.


29


.





FIG. 31

is a right side view of FIG.


29


.





FIG. 32

is a front view of a position guide plate in the present invention.





FIG. 33

is an upper view of FIG.


32


.





FIG. 34

is a right side view of FIG.


32


.





FIG. 35

is a front view of a hook in the present invention.





FIG. 36

is an upper view of FIG.


35


.





FIG. 37

is a right side view of FIG.


35


.





FIG. 38

is a front view of a passive rod in the present invention.





FIG. 39

is a right side view of FIG.


38


.





FIG. 40

is a relative view of the hook and the passive rod in the present invention.





FIG. 41

is a right side view of FIG.


40


.





FIG. 42

is a side view of the hook under hooking movement in the present invention.





FIG. 43

is a cross-section of the press-style auxiliary lock normally keeping immovable an object in the present invention.





FIG. 44

is a cross-sectional view of the press-style auxiliary lock pressed to form inserting engagement and hooking engagement in the present invention.





FIG. 45

is a relative view of the drive means and the interactive means in the present invention.





FIG. 46

is a relative view of the drive means and the interactive means under mutual movement in the present invention, and





FIG. 47

is a cross-sectional view of the press-style auxiliary lock under the insert engagement and the hook engagement in the present invention.











DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT




A preferred embodiment of a press-style auxiliary lock in the present invention, as shown in

FIG. 1-6

, includes an outer housing


1


, an inner housing


2


, an engage means


3


, a drive means


4


, a press member


5


, a grip


50


, a position guide plate


51


, two interactive rods


6


and


60


, a decorative cover


7


, a hook


8


, a connect rod


9


and a hook rod


10


as main components.




The outer housing


1


and the inner housing


2


are combined with each other to become integral. The outer housing


1


has a cylindrical member


12


extending to the front to combine with a press member


5


attached with the grip


50


(as shown in

FIGS. 43

,


44


). Two projecting blocks


13


are provided in the cylindrical member


12


for the press button


5


to fit in to combine the press member


5


. Further, the cylindrical member


12


has a curved groove


14


formed in an inner lower wall to combine a position guide plate


51


therein. The outer housing


1


has a position room


15


respectively formed at two sides respectively for the left and the right interactive rods


6


and


60


to fit therein, and a semicircular aperture


16


formed at two side walls for a connect rod


9


located between the interactive rods


6


and


60


and the hook


8


to extend therein.




As shown in

FIG. 3

, the outer housing


1


and the inner housing


2


are combined together as integral, and the outer housing


1


has a hollow cylinder


12


fixed at the front for fitting the press member


5


with the grip


50


as shown in

FIGS. 43

,


44


. A curved groove


14


is formed in a lower wall of the cylindrical member


12


to combine a position guide plate


51


. Further, the outer housing


1


has a position room


15


respectively at two sides for the left and the right interactive means


6


and


60


to fit therein, and a semicircular aperture


16


respectively formed in two side walls for the connect rod


9


provided between the interactive rods


6


,


60


and the hook


8


to extend therein.




The inner housing


2


, as shown in

FIGS. 4-6

, has a drive means room


21


to contain the drive means


4


, and a position room


22


formed each at two sides of the room


21


, and an aperture


23


formed respectively in two side walls for the connect rod


9


provided between interactive rods


6


,


60


and the hook to extend therein, and an opening


24


formed in a front upper wall for the engage means


3


to move in and out.




Next, as shown in

FIGS. 7-12

, a threaded rod


52


is provided to extend forward from the press member


5


to screw in a threaded hole


501


of the grip


50


as one unit of a press structure as shown in

FIGS. 43

,


44


. The press member


5


has a guide block


53


on an upper side, and a guide hole


54


at two sides of the guide block


53


for the projecting blocks


13


of the hollow cylinder


12


to fit therein. The press member


5


further has a slope


55


formed in a rear portion for the drive means


4


to slide along upward, and a guide block


56


formed under the lower surface to fit and move in a guide rail


511


of the position guide plate


51


.to let the press member


5


pressed in and secured or released to move out. Further, a spring


57


is provided between the press member


5


and the inner wall of the inner housing


2


to let the press member


5


easily pushed outward elastically.




The engage means


3


, as shown in

FIGS. 15-18

, has a hole


31


opening downward each at two sides for a coil spring


30


located between the engage means


3


and the drive means


4


to fit and located therein, and a drive means room


32


formed in a front half portion for the drive means


4


to extend therein when the drive means


4


rises up, so the drive means


3


not only rotates for hooking when rises up, but also pushes up the engage means


3


, which then cannot descend and protrudes firmly up to insert.




The drive means


4


shown in

FIGS. 19-22

has an upper block


41


to rise and extend in the room


32


of the engage mans


3


to push up the engage means


3


from under, and an aperture


42


formed each in two lower sides for receiving posts


61


,


601


of the interactive rods


6


,


60


therein stabilized, a curved contact surface


43


formed each at two sides of a center hole to contact with the slope


55


of the press member


5


to engage the drive means


4


to move up together in case of the drive means


4


pressed, and a hole


44


formed each at two upper sides for the coil springs


30


to fit in.





FIGS. 23

,


24


,


25


,


26


,


27


and


28


show the left and the right interactive rods


6


and


60


, which have the same but asymmetrical structure and different size and thickness according to the space planned, while they act in the same way. The left and the right interactive rods


6


and


60


respectively have a post


61


,


601


on an inner side for the aperture


42


of the drive means


4


to fit with, and an insert hole


62


,


602


opening outward for one end of the connect rod


9


between the interactive rods


6


,


60


and the hook


8


to insert therein.




A restrain plate


3


A shown in

FIGS. 29

,


30


, and


31


is for the engage means to engage with, having two elongate slots


3


A


1


and at leans one through hole


3


A


2


to secure the restrain plate


3


A on a preset location of an object to install this lock, and a lower edge


3


A


3


projecting down for a preset length.




The position guide plate


51


shown in

FIGS. 32

,


33


, and


34


is for controlling the press member


5


to be pressed in and secured in its place and pressed again to release to move up, having a guide rail


511


of a nearly triangular sealed route forming a three triangle with three points A, B, C and another triangle with other three points B, O, C. And the side AB is longer than OB (AB>OB) and the side AC is longer than the side OC (AC>OC), and the side BC is common. The points B and O respectively have a recess


512


,


513


and a guide angle


514


,


515


opposite to the recess


512


,


513


. Then when the press member


5


is pressed in, the guide block


56


moves along the side AB into the recess


512


. But when the press member


5


is pressed again to release, the guide block


56


is guided by the guide angle


514


to slide into the recess


153


to let the press member


5


pressed in to secure at its place. If the press member


5


is further pressed, the guide block


56


moves outward along the guide angle


515


to the point C and then returns to the point A via the side CA. In this way the press member


5


is controlled in pressing and releasing to stabilize to its position.




The hook


8


shown in

FIGS. 35

,


36


, and


37


is clamped by a constrictor


80


, having one end formed with a insert hole


81


for one end of the connect rod


9


located between the interactive rods


6


,


60


and the hook


8


to insert therein, as shown in FIG.


47


.





FIGS. 38 and 39

show a passive rod


10


to be hooked by the hook


8


, having a ratchet-shape post


101


formed in a rear portion and a front portion for the hook


8


to hook as shown in

FIGS. 40

,


41


and


42


.




Next, in using, when the grip


50


is not pressed in, the guide block


56


of the press member


5


is located at the point A of the guide plate


51


, with the drive means


4


not yet rising up, and with the curved contact surface


43


located near under the slope


55


of the press member


5


. And the engage means


3


may be moved to extend or shrink by means of the coil springs


30


by opening or closing a door or a window.




As shown in

FIG. 44

, when the grip


50


is pressed in, the press member


5


moves in at the same time, letting the drive means


4


rise along the slope


55


of the press member


5


, pushing up the engage means


3


, forcing the aperture


42


rotate the two interactive rods


6


,


60


for a certain angle at the same time as shown in

FIG. 46

, and letting the connect rod


9


move the two hooks


8


at two ends hook the passive rod


10


, as shown in FIG.


47


.




The press-style auxiliary lock in the invention has the following advantages.




1. When the grip is not yet pressed in, the engage means may move along with a door, a cabinet, or a drawer to open or close, freely receiving expansion and shrinkage.




2. When the grip is pressed in, the drive means rises up to let two hooks hook the passive rod and rise to push up the engage means, which then cannot descend, achieving inserting engagement and hooking engagement synchronously.




3. Its structure is simple, and a single press action can perform double fixing effect (engaging and hooking).




While the preferred embodiment of the invention has been described above, it will be recognized and understood that various modifications may be mad therein and the appended claims are intended to cover all such modifications that may fall within the spirit and scope of the invention.



Claims
  • 1. A press-style auxiliary lock comprising an outer housing and an inner housing, an engage means fixed in said outer housing and said inner housing to protrude up, a drive means possible to rise up and to let a hook rotate, a press member and a grip connected to said press member for controlling said drive means to rise up, a position guide plate with a guide rail to guide said press member in moving and securing to its place, two interactive rods moving and rotating with said drive means, a decorative cap closing on a press hole of an object to fix said auxiliary lock, a connect rod connected between said interactive rods and said hooks, and a passive rod fixed on said object to be hooked:said outer housing and said inner housing combined together integral, a hollow cylinder fixed on a front side of said outer housing to combine with said press member and said grip, said hollow cylinder having two opposite projecting blocks inside for said press member to insert in a gap between said two projecting blocks, said hollow cylinder having a curved groove formed in a lower inner wall for said position guide plate to combine with, said outer housing further having a position room respectively provided at two sides to combine a left and a right interactive rod, said outer housing having a semicircular aperture formed respectively in two side walls for connect rods between said interactive rods and hooks to insert therein: said outer housing and said inner housing combined together integral, said inner housing having a drive means room for containing said drive means, a position room formed at two sides of said drive means room for containing said interactive rods, a semicircular aperture formed in two side walls for said connect rods between said interactive rods and said hooks to extend therein, said inner housing having an aperture formed in a front upper surface for said engage means to move in and out: said press member having said grip fixed on its front side, and a guide block formed on an upper side, a guide groove respectively formed at two sides for said projecting blocks of said hollow cylinder to engage, said press member having a slope in a rear portion for said drive means to rise up along, said press member having a guide block formed under a lower edge to fit and move in said guide rail of said position guide plate, and a coil spring placed between said press member and an inner wall of said inner housing: said engage means having a hole respectively opening downward in two sides for said coil springs located between said engage means and said drive means to fit therein, and a hollow room in a front half portion for said drive means to fit therein when said drive means is raised: said drive means having a top block to rise and extend in said engage means to push up said engage means and an aperture respectively formed in two lower sides for projecting posts of said interactive rods to fit and stabilized, said drive means having two curved contact surfaces at two sides of a center hole to contact with and move up and down said slope of said press member, a hole opening upward formed respectively at two sides for said coil springs between said engage means and said drive means to fit therein: said interactive rods having a projecting post formed inside to fit in said aperture of said drive means, an inner insert hole formed in an outer side for one end of said connect rod between said interactive rods and said hook to fit in: a restrain plate provided for said engage means to engage with, having an engage edge protruding out with a preset length, said engage edge having a sloped surface or a curved surface each at two sides, said position plate controlling said press member in pressing in to stabilize and pressing again to release to move up, having said guide rail of sealed curved routes, said guide rail having four points of A, B, C and O, said three points A, B C forming a triangle, said three points B, O, C forming another triangle, a side AB being longer than a side OB (AB>OB), a side AC being longer than OC (AC>OC), a side BC being common for said two triangles, said points B and O having respectively a recess and a guide angle located opposite to said two recesses: said hooks respectively clamped by a position constrictor in its place, having one end formed with an insert hole for one end of said connect rod between said interactive rods and said hook to insert: said passive rod hooked by said hook having a lower ratchet-shaped portion and a front portion formed to have a certain length and a certain outer diameter: said lower guide block of said press member located at said A point of said position plate and said drive means being not raised up with its curved contact surface located near under said slope of said press member to let said engage means freely extend or shrink by means of said coil springs according to opening or closing of a door, a cabinet or a drawer so that said auxiliary lock may be easily opened or closed when said grip being not yet pressed in, said drive means being raised up along said slope of said press member and pushing up said engage means, said aperture carrying said interactive rods at two sides to rotate for a preset angle to let said connect rod carrying said hooks at two ends to hook said passive rods at the same time when said grip together with said press member is pressed in.
US Referenced Citations (2)
Number Name Date Kind
3596952 Hinkle Aug 1971 A
4538844 Watanabe Sep 1985 A