Patent Application
20210062540
The present invention relates to a switch structure for a lock deadbolt which enhances a flexible returning of a shifting element by ways of a flexible buffer.
A conventional lock contains components which are not changeable and applicable for doors of various specifications.
A conventional lock deadbolt contains a body, an extension extending from a first end of the body, and a pull plate extending from a second end of the body, wherein the pull plate actuates the extension. The pull plate has two support sheets mounted on a front side and a rear side thereof respectively, and a drive piece defined between the two support sheets and having a C-shaped cross section. The drive piece having a C-shaped cross section actuates a rotatable button, and the two support sheets have two circularly elongated orifices defined thereon respectively so that the rotatable button is inserted through the two circularly elongated orifices. However, when the conventional lock deadbolt is switched, it is easy to cause a friction loss because of unlocking/locking the lock deadbolt, thus switching the lock dead bolt forcefully.
The present invention has arisen to mitigate and/or obviate the afore-described disadvantages.
The primary objective of the present invention is to provide a switch structure for a lock deadbolt which contains a body, a sliding device, a shifting element, and a flexible buffer.
Thereby, the shifting element is rotated to actuate the sliding device, and the deadbolt head is urged by the sliding device to extend and retract in the body, then the shifting element is rotated so that the two abutting faces and the contacting edge force the flexible buffer. The contacting edge forces the flexible buffer downward so as to produce a flexible buffer and a balanced reduced pressure, thus rotating the shifting element easily and enhancing flexible returning of the flexible buffer.
The present invention will be clearer from the following description when viewed together with the accompanying drawings, which show, for purpose of illustrations only, a preferred embodiment in accordance with the present invention.
With reference to
a body 10 including two bases 11 having a fastener a1 and a connection portion a2 so that the two bases 11 are connected to form the body 10 by ways of the fastener a1 and the connection portion a2, wherein the two bases 11 have an actuation section 16 formed on two first ends of the two bases 11, a slide space 17 defined inside the two bases 11, a receiving room 12 formed inside the two bases 11, two slots 13 defined on two sides of the two bases 11 respectively and communicating with the receiving room 12, two first orifices 14 formed below the two slots 13 individually, four second orifices 15 defined beside the two first orifices 14 respectively, and a positioning zone 18 formed in the receiving room 12 of the two bases 11 corresponding to the two slots 13 respectively;
a sliding device 20 including a slidable segment 21 extending on a first end of the sliding device 20 and accommodated in the slide space 17 of the body 10, an extending sheet 23 extending on a second end of the slidable segment 21, a groove 24 longitudinally formed on a distal end of the extending sheet 23, and two wings 25 extending from two sides of the groove 24 and slidably connected with the two slots 13 individually, wherein the slidable segment 21 has a coupling portion 22 arranged on a predetermined position of a front end thereof;
a shifting element 30 including a rotary shaft 31 rotatably connected with the two first orifices 14 of the body 10, a cross-shaped trench 35 passing through the rotary shaft 31, a swing column 36 radially extending from a predetermined position of the rotary shaft 31, wherein the swing column 38 is rotatably inserted into the groove 24 of the sliding device 20, the sliding device 20 further includes a rotatable seat 32 extending from a side of the rotary shaft 31, two abutting faces 33 formed on two bottoms of the swing 36 respectively in a V shape, and a connecting area of the two abutting faces 33 is a contacting edge 34;
a flexible buffer 50 located on the positioning zone 18 of the two bases 11, and the flexible buffer 50 including a cushion portion 51 formed on a central section of the flexible buffer 50, two flexible holders 52 arranged on two ends of the cushion portion 51 individually, two flexible chambers 53 defined inside the two flexible holders 52 respectively, and two support feet 54 extending on two bottoms of two ends of the flexible buffer 50 individually, wherein the cushion portion 51, the two flexible holders 52, and the two support feet 54 of the flexible buffer 50 are integrally made of flexible metal; the two flexible holders 52 of the flexible buffer 50 have two arcuate cross sections individually; the cushion portion 51 is aligned with the two abutting faces 33 and the contacting edge 34 of the swing column 36 of the shifting element 30, such that when the shifting element 30 is rotated, the two abutting faces 33 and the contacting edge 34 of the shifting element 30 force the cushion portion 51 of the flexible buffer 50; and
a deadbolt head 40 including a fixing portion 41 formed on a first end of the deadbolt head 40 and fitted with the slidable segment 21 of the sliding device 20, a driven portion 42 corresponding to the coupling portion 22 of the sliding device 20 so that when the fixing portion 41 is fitted with the slidable segment 21 of the sliding device 20, the driven portion 42 is fixed with the coupling portion 22 of the sliding device 20, a second end of the deadbolt head 40 is inserted into a through hole 62 of a first end of a stopper 60, and the stopper 60 includes a limitation piece 61 arranged on a second end thereof.
The shifting element 30 is rotated to actuate the sliding device 20, and the deadbolt head 40 is urged by the sliding device 20 to extend and retract in the body 10, then the shifting element 30 is rotated so that the two abutting faces 33 and the contacting edge 34 force the flexible buffer 50, wherein the contacting edge 34 forces the flexible buffer 50 downward so as to produce a flexible buffer and a balanced reduced pressure, thus rotating the shifting element 30 easily and enhancing flexible returning of the flexible buffer 50.
While various embodiments in accordance with the present invention have been shown and described, it is clear to those skilled in the art that further embodiments may be made without departing from the scope of the present invention.
