CA2061455C - Mechanical clutch having electrical validation - Google Patents

Abstract

This mechanical clutch device with electrical validation requires an additional manual operation in order to allow the electrical part to operate under a very low current. This system, used in a lock, comprises a box in which are found the lock, the batteries, the electronic circuit and the clutch mechanism mentioned above. The latter is formed by a cylinder fixed to the housing in which a cylindrical rod can rotate freely but which can act in translation in a limited way, on the one hand by a fixed stop and on the other hand by a mobile stop acting as first mechanism blocking. The latter moves back when the rod is pulled and it can be locked in this position by a tooth, belonging to a lever which pivots on an axis and which seeks to approach the movable stop when the latter moves back, thus constituting the second mechanism. blocking. However, the lever can be prevented from advancing by the moving plate of a small relay if the system is not validated. If enabled, the tooth prevents the movable stop from moving, then allowing the rod to advance to make the junction with the rest of the device to be engaged. An additional button allows manual clutching when desired to, for example, lock the door when leaving, without having to activate the electrical system.

Description

~ l ~ emoire Description General information: 2 0 614 ~ ~
: The present invention relates to a mechanical clutch. ~
electrical validation which is used mainly in d6 systems .. lock. This clutch is completely mechanical and al ~ Operation required for the clutch is also, but the . clutching is electrocution. Also, for .,.
description besolns we're going to use it in a ~ - ~ device used to modify an ordinary key lock by ; 10 permanent key lock validated by a controlled access code -:, by an electronic circuit.
: ~ Current situation:
. ~
To unlock a door, most people use it a metal key which penetrates inside a cylinder and, . depending on whether it's the key or not, can, by rotation, : roll back a metal pin, which unlocks the door.
. It's the mechanical lock. Some commercial buildings are serve as electronic keyboard or card circuit magnetic ~ to activate a lage unlocking system 20 electric, usually an electric strike. These same . electric strikes are used a lot in lodge buildings mehts to unlock, using a switch in the apartment, the main entrance door of the building When a visitor arrives. These two locking systems ~; have a lot of advantages and we won't dwell on it, but they : ~ have a lot of disadvantages which we will describe here.
~ ~ Disadvantages of current devices:
Key systems:
- ~ This typ ~ of v ~ rrGu is generally very safe and 30 can be easily forced or even opened with a false key or ul ~ pistol ~ t percussion specially designed for this purpose.
In addition, the ~ families with young children in school must leave the key under the mat on the frame of the door, etc ... so that everyone can easily enter this which, in all practical terms, means that the door is accessible _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _, _ _ _ _ _ _ _ ~ - 2061 ~
ble to everyone. Those who don't like this way of falre must ~ carve a key for each member of the Eamille and there, this ~ a becomes very complicated for children:
loss of the key, forgotten at home or at school, rope around - neck (very dangerous), etc.
There are also those who find themselves outside in front of a . ~. barred door, that is to say which sort for an activity and ~: whose door, having closed, is again bolted.
~ 3ystè ~ nes with electric opening 10 There are almost ~ rl ~ ement on the market ~ é a pretty nice variety of . ~ -, ~ - Eonc locking mechanisms ~ ionnant with electricity. The some act on the pene, others, on the waste, some acting directly on the handle. These devices can ~ - are controlled either by an access code, a magnetic card, -. voice identification or other means, always more ~ ~ "more sophisticated, which makes them more and more secure-. i taires. The basic principle behind these mechanisms is ~ roughly always the same. The device controlling the lock acts on an electromagnet or a planger or a small actuating motor '7 20 one or more lever (s), causing ~ nant thereafter the movement which . . unlocks the door.
However, even if these electro-mechanical locking devices - are be ~ ucoup pllls plastic than those with key and much more ~ - safe, they are shunned by the general public, and c .:, . ~ ~ for two good reasons.
~ on board, it's a question of vrix. In eEEet, these devices reils its ~ so expensive that only some : -:
.- commercial or public buildings are interested in them to acquire.
. Second. there is lellr other. The required current for their diet is so high that it requires the use of 120 volts from the sector with all its disadvantages (~ they electrical, power outages, etc, ..) and if, by need of electric autonomy, the use pil ~ s is necessary, we must use qrosses, 20614S ~
debiting a current ort for quite a while short .
~ e more, it should also be noted that these are .i systems simple action, that is to say it is the electromagnet, or its ~ r ,, equivalent, mistletoe activates the levers which unlock the ;, '~
_. mechanism. The operator just pushed the door or . turn the poin to open the door. With a - this kind, the intruder is warned if there is an accidental validation -Ie, like for example if, by groping on a keyboard, it 10 comes across the right combination.
h improvements made by my invention:
~ On invention is therefore a mechanism which has the advantages of the two systems, without having the disadvantages, that is to say say mistletoe allows to use any mechanical lock : used commercially without having to drag keys. In summarizes, my in ~ el; tion is a very inexpensive mechanism perrt, e ~ ant use ~ ies advan ~ ages of s ~ stems ~ lectrs-: mechanical 4t ce, in s ~ servallt of ur ~ e small pi] e d4 9 vol ~ s which ell4, can fol ~ ction during plu5 from an àn, SOU3 usage , 0 normal Here are the advantages of a locking device using my inv ~ ntion:
- uses the same holes as a route lock.
- no ~ ~ island to pass along the walls for feeding-tlon.
- the mechanism is dual action, that is to say that the operator must always pull then p ~, use the key permanent which, moreover, produces nothing when the system is not validated but which, on the contrary, when validated, allows the clutch of the permanent key giving to this one check the lock. Valida ~ isn qu ~
~ rovLer, ~ ~ é ~ ralemeL ~ f of a small element ~ Lo ~ alr, lant _OlltLol-plL ulle ~ irc: electronic ult does not cause opera ~ io no l ~ Yie ~ nor r ~ e in any way allows the opening ~
the door.
S

can be installed very easily. 2 ~ 614 ~ 5 - allows the buyer to choose the type of lock he preferred (vertical, deadbolt or ordinary), useful ~: use the model with incorporated lock or use its -, old lock.
The very low cost allows domestic use, but also 'I commercial use.
- When used with a good quality lock and a electronic circuit well done, it becomes practically .-inviolable in the sense that, I ~ 'having no key, it does not shovel ~;
.:. to be hooked. How the permanent key can turn .. freely when it is not validated, it cannot therefore be formed with a clamp.
This mechanical clutch with electrical validation will be better . ^, described with reference to the Eigures in which:
- - ~ 1 Fiqure 1 is a perspective showing an adapter key lock in lock with access code using the -. of the above-mentioned device, illustrating the part ~ s .;
component which is fixed on the inside of a door.
: Figure 2 is a perspective playing the same role as the . figure 1, but illustrating the part appearing . on the outside of the door.
Figure 3 is ulle Pers ~ 7ectiVe of the cylindrical rod used in this example of using the em mechanism clutch described above.
, ~ / Figure 4 is ~ only cut along line 4-4 of Figures 2 and 6 ot which shows the interior of the device of which it is ~: question in figure 1, presenting the mechanism clutch in engaged position, that is to say ~ in which the cylindrical rod controls the lock.
Figure s is a section on line 5-5 of Figure 7, similar to that of ~ igure 4, but presenting the clutch mechanism in the rest position, that is to say in which the cylindrical ti ~ e is ; - lB

20614 ~ 5 --s totally inactive, can rotate freely on its axis, so do not control the lock.
Figure SA it shows the recoil action of the first mechanism locking when the cylindrical rod is pulled towards ground .
. ~ ,,.
- ~ ~ Figure 6 is a c ~ upe along line 6-6 of Figure 4, and shows a lever model that can tilt when that the cylindrical rod is pulled, because the system is validated ~ electromagnet operated), paraly-thus the first blocking mechanism.
Figure 7 is a section on line 7-7 of Figure S and also illustrates the action of the lever of FIG. 6, but when the system is not validated. The elect tro-magnet, not being operated, obstructs its passage and prevents it from moving forward, even when the cylinder rod drique is drawn towards you.
Figure 8 shows the same part as Figure 4, but seen along a section on line 8-8 of FIG. 6, . ~ `, thus showing how, when the cylindrical rod advance to engage, she pushes the lever - second level of blocking, allowing all levers to resume their original position when-that the cylindrical head will be recalled Figure 9 is a section similar to that of Figure 8, but seen along line g-9 in Figure 7. It preserlte ~ same situation of: ~ epos que} a Eig ~ -re 7 ITlais seen under another English ~.
'. , ~. .
_ ~ 30 Before starting this partle, 11 you must remember that The whole of the description which follows only illustrates the object of this request in a specific context.
However, the clutch discussed here can be used in several other functions or devices.
. :
., ~ B 7 _ _ _. . . _. . ... ,. _ _ _. .

~. 20614S ~
Referring to the figures where the same numbers refer to `, memes élémeDts, we see in ~ igure 1, uDe porte d ~ odds :: interior 12 and exterior 13 and with the interior 12 side take a handle 14, a latch 15 and an inner box L6 `~ under the latch 15, the outer side 13 (Figure 2) includes a ~,: ~
button 17 !, a keyboard 18 and a control light 19 (optional ve) located in an external bolt box 20. The lock 15 (Figure 1), comprising a bolt 23, a catch 24 for immobilize the bolt 23 and a bolt stroke bolt 25, superimposed on the inner box 16, on which a door 22 provides access to batteries and electronic circuit. The bou-your 17 ($ iyure 3) is the outer part of a cylinder rod drique 26 serving as e ~ nbutch element: this cylindrical tiqe that 26 (fiqure 4) is located perpendicular to the wall 20 of the outer box 16 and includes, in addition to the button 17, a cylinder 27 which ends with a shoulder 28, followed by a truncated cone 29 whose large diameter 31 moves away therefrom, and a generally square key 32 of Çorme intended to engage in the opening of the shape 33 of a rotating element 34 constr ~ .or ~ ~ swim and move the bolt 23. The big diameter 31 es ~ Slightly larger than ~ the diameter of the cylinder 27 (Çig ~ lre s ~) so that it does not exceed the stopper during an operation. I ~ n spring 35 (Figure 4) pushes normally cylinder 27 and key 32 to a position clutch. The cylindrical rod 26 is surrounded in its cylindrical part 27 of an envelope 36 fixed firmly to the box 16 by welding or otherwise. E: n rest position, one mechanism locks the cylindrical rod in position disengaged. This first blocking mechanism (Figure S) includes: a stop 38 slidingly mounted in a bolt case 39, ct whose pcl ~ te 37 is machined to respect the form of the frustoconical part 29 against which it is applied thanks to the spring ~ 40. ~ n Normal position, the stop 38 is based on 1 ~ ~ cone 29, where the dia ~ nètLe is the smaller, ~ t on the shoulder 28, in order to prevent the rod .
``
2061 ~ 55 . cylindrical to advance. When button 17 (figure 4 ~ is '~~ pulled towards the operator, the tip 37 ~ of the stop 38 (fig ~ lre SA) slides on the slope of the truncated cone which expands more pl ~ ls, rolling back the stop and compressing the spring 40, when the large diameter 31 of the truncated cone 29 (Figure 4) rests on the opening of the envelope 36 ~. (Figure 5A) of the cylinder 27, the movable stop 38 can no longer back off, but the upper part ~ ure 31 remains engaged on the poin ~ e 37 of the stop 38. A second mechanism 10 blocking (Figure 6) includes a first opening 41 in the stop 38 which aligns to a second opening 42 as part of the stopper for receiving a male appendage 43 intended to immobilize the stop 38. This second mechanism blockage comes into operation simultaneously with the retreat of the stop 38, this moving a rod 4q which passes through . i a third opening 45 in the envelope 39 of the stop 38 and in a fourth opening 46 in a lever 47 connected to - i app ~ male ndice 43 relative to a pivot 48. The stop 38 can therefore push ~ r on the lever 47 through the spring 56 20 (Figure 7) which surrounds the rod 44 (Figure 6). Thanks to the second mechani_, not blocking, the cylindrical rod 26 (Figures 8 and 9 ~
can engage or not the rotation element 33 under the thrust of spring 35 (Figure 4). This is where the validation mechanism. Lever 47 (Figure 7) is prevented to advance by ul element of non-validation 50, the appendix . male 43 being held outside the opening 41 of the stop. Sl the stopper 38 is when it retreats by the rod cylindrical 26 (Figure 5), the ti ~ e 44, which is fixed to the stops 3 ~ 3, pou3 ~ -, r- on the lever 47 ~ I using the spring 56 mistletoe 30 compriln ~ ~ ur lever 47, the latter being immo ~ ilise psr 1 élé ~ nent d ~ non validation 50 (Figure 7). The validation is , made by any electrical or electronic circuit controlled by a keyboard, magnetic card or other means, which acts on the electromagnet 53, the latter approaching ~ The non-validation element 50 in I 'moving away from the lever 47.
:. ~. 9 .... _. _ _ _ _,.

20 ~ 5 For security and permanent locking purposes, a spring 54 tends to maintain the non-validation element 5 ~ in locking position of the lever 47 and consequently of the second locking mechanism. The spring 49 surrounding the rod 44 between the lever 47 and the head 44A (FIG. 6) of the rod 44 a function of forcing the lever 47, when not operated, to toUjoUL-S 5'appUyeL SUL the goal ~ e S9 (figure 7), a ~ in exert no pressure on one element of non-validation ~ ion 50, because the force of the electromagnet which moves this element is so 10 weak only if the tip of lever 47 pressed on it, it would not could not be moved by said force. The re-listing ~ e-This is done automatically (Figure 8). When the rod cylindrical advance, under the action of the return spring or the operator's hand, to engage the rotating member 33, the large diameter of the truncated cone slides on a appendix 57, taken from lever 47, and having a slope 58, pushing back said lever, thereby extracting the appendix male 43 of the stop 38 which will return, under the action of the spring 40 (Figure 5A), lean on the cylinder 27 of the ~ 0 cylindrical rod 26 (Figure 5). When this ~ last ~ - s ~ ra pulled, after having locked the door from the outside, the tip 37 of stop 38, still sliding on the cylinder 27 of the cylindrical rod 26, will exceed the shoulder 28 and advance to resume its original position ~ Figure 9 and p ~ Figure 5).

Claims (15)

1- A mechanical clutch device with electrical validation that which comprises a clutch element acting in rotation, and connected to the rest of the mechanism in which the above mentioned device is used, said em-clutch placed at the end of a cylindrical rod, short distance from it, and being one with it, when the latter advances, said cylindrical rod whose diameter varies according to needs, acting freely ment in rotation but limited in translation, and this, on the one hand by a fixed stop, and on the other hand, by a movable stop which is called upon to move away of the rod when the latter is operated in traction, and can be immobilized in this last position by one of the parts of a pivoting lever, which seeks to approach the mobile stop to block the return when the latter moves away from the rod, said lever receiving permission to rotate only when mobile element, placed in its path, preventing it normally any movement, is moved, attracted by a electrical coil. 2- An apparatus as defined in claim 1, whose parts are placed in a case whose bottom is extension of a drilled extension of a cylindrical hole in which the rod can rotate. 3- An apparatus as defined in claim 1, one of which part of the stem is of reduced diameter, ending, at the outlet of the housing, by a button allowing the manipulation, and the other end, of non-cylindrical shape, being designed to engage in an orifice provided for it directly on the clutch element, allowing the latter to act in rotation under the action of the manipulation button outside tion. 4. An apparatus as defined in claim 1, the movable stopper is a solid piece of metal, sliding in a guide or pivoting on its axis, and the surface of which sloping contact between the rod and said movable stop is done in such a way that when you pull on the rod, the movable stop moves slightly away from the rod, but resumes its place, pushed by a return spring, when the rod takes its own, and prevents it to go forward to go and engage in the element of clutch-ge. 5. An apparatus as defined in claim 1 or 3, the fixed stop of which is formed by a narrowing of the cylindrical hole in which the rod slides, allowing at the end of small diameter to pass, but stopping there where the diameter grows. 6. An apparatus as defined in claim 1, the lever, pivoting on an axis, can approach the stop mobile thanks to a spring, when this one moves back, allowing a tooth forming part of said lever to engage in the check mark of the mobile stop which is there destiny, preventing the latter from returning to its place when the rod returns to hers. 7. An apparatus as defined in claim 1 or 6, the lever of which is provided with a projection allowing the rod, when it exceeds the movable stop to go engage the clutch element, push on said lever in order to disengage the tooth and re-put the movable stop to go, thanks to its spring reminder, press the said rod again. 8- An apparatus as defined in claim 1, the electric coil allows, when a current flows there, the approach of a mobile element, the latter returning to its initial position thanks to a return spring when current no longer flows through the coil. 9- An apparatus as defined in claim 1 or 8, the mobile element of which is placed, in the rest position, so as to prevent the free end of the lever, the singing to approach the movable stop when the latter moves away from the rod, thus refusing the latter to go forward to go and engage in the element of clutch-but allowing the said movable element, when attracted by the electric coil, to move enough to allow the lever to be able to approach the movable stopper in order to immobilize it, thus allowing the rod to go forward to go into gear and control the rest of the mechanism. 10- An apparatus as defined in claim 1, of which the clutch element is a part placed in the axis of the rod, at a short distance from it, designed to ability to anchor with said rod when the latter can advance and pass the movable stop, allowing the rod to control the rest of the mechanism, said element clutch being connected by lever or otherwise to said rest of the mechanism. 11- An apparatus as defined in claim 1 or 3, the rod of which is provided with a return spring normally placed on the small diameter part, between the stop fixed and the shoulder caused by where the diameter increases. 12- An apparatus as defined in claim 5, the rod is fitted with a return spring normally placed on the small diameter part, between the fixed stop and the shoulder caused by where the diameter increases. 13- An apparatus as defined in claim l, which can be equipped with an element of rapid takeover by the external button, this being a means, terminated by a button, itself outside the housing, to push manually on the movable stopper to allow the rod return spring to advance the rod to fit into the clutch element, and this, without electrical validation 14- An apparatus as defined in claim 1, which can be used in a lock as follows:
- all the elements are placed inside the housing, the whole being connected to the clutch element, - a button, placed outside the case is attached, through a hole in it, has the em-clutch, allowing control of the lock from from inside the locked room, - said box must be placed on a door or other object to be locked, the rod passing through the door by a hole drilled for this purpose and allowing to have the button control on the other side, - the electric coil must be connected to a electronic device designed to send him validation current when the acceptance conditions tation are met. 15- An apparatus as defined in claim 1, which can be used as an adapter to convert a lock with key in lock with electronic validation and this, as follows:

- the clutch element is extended by a rod metal coming out of the case through a hole on the side opposite the base, this rod being finished so to be able to fit in the same place and play the same role that the rod which allows the key cylinder to ability to act on the lock with which said adapta-must work, - said adapter must be placed on a door or other object to be locked, in the same place as the old lock, and the latter must be placed on said adapter, fixed to it by screw or otherwise, the metal rod attached to the clutch element, protruding from the case, being placed to fit into the old lock in the same place and playing the same role as the one that came from the old key cylinder.