US3151489A - Adjustable clock controlled switch mechanism - Google Patents

Description

Oct. 6, 1964 T. BOWEN 3,151,489

ADJUSTABLE CLOCK CONTROLLED SWITCH MECHANISM Filed Oct. 21. 1960 2 Sheets-Sheet 1 a. 36 9 j llll 91:: Z 36' 5 3; 3/ 4 2? ,3;

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Oct. 6, 1964 T. BOWEN 3,151,489

ADJUSTABLE CLOCK CONTROLLED SWITCH MECHANISM Filed Oct. 21, 1960 2 Sheets-Sheet 2 l 5l m 32 7 W /3 United States Patent 3,151,489 ADJUSTABLE CLOCK CONTROLLED SWITCH MECHANISM Tom Bowen, Hove, England, assignor to Smiths America Corporation, Lakeland, Fla, a corporation of Florida Filed Oct. 21, 196i Ser. No. 64,022 Claims priority, application Great Britain, Get. 22, 1959, 35,873/ 59 7 Claims. (Cl. 743.5)

This invention relates to adjustable clock controlled switch mechanism. The term switch mechanism is intended to cover any mechanism controlling an electrical, mechanical or fluid source.

According to this invention an adjustable clock controlled switch mechanism is characterized in that a part of the mechanism is disposed in and is adjustable along the path of movement of an element driven by the clock, and in that means are provided for pre-setting said part at a pre-selected locality in said path away from said element and in so doing imparting movement to a switch controlling member in one sense, and which part when engaged by the clock driven element causes the switch controlling member to move in the opposite sense and in that the means for pre-setting said part of the mechanism to a preselected locality in the path of movement of the element driven by the clock, imparts movement to the switch controlling member in one sense against the action of a spring and which part has associated therewith a de tent which automatically engages it during the pre-setting operation so as to hold the spring in a loaded condition and in that the detent is arranged to be tripped by the clock driven element whereupon the spring can impart movement to said part and to the switch controlling member in the opposite sense.

One end of said spring may be attached to or form said part which is adjustable along the path of movement of the clock driven element and the other end of the spring is connected to an element rotatable through a lost motion device by the means for pro-setting said part so that when the switch controlling member has been actuated by the initial part of the setting movement continued setting movement results in said spring and said part rotating solidly together whereby the spring cannot be overstressed.

Preferably the means for pre-setting said part in the path of movement of the clock driven element is rotatable and the switch controlling member rotates therewith but is axially movable relatively thereto which axial movement actuates said switch and a rotatable frictionally restrained member is arranged co-axially with said switch controlling member and is rotated through a lost motion device by said setting means and cam means are arranged between the switch controlling member and the frictionally restrained member so that while lost motion takes place between the setting means and frictionally restrained member axial movement is imparted to said switch controlling member and when the lost motion is taken up, the setting means, the frictionally restrained member, and switch controlling means rotate together.

The same lost motion device may be asosciated with said frictionally restrained member as with said spring j and the part which spring is adjustable along the path of movement ofthe clock driven element.

The part adjustable along the path of the switch controlling member is so connected to the pre-setting means that it may be moved out of engagement with the detent by reversal of the movement of the pre-setting means whereby correction may be made should said parts be overset.

The part which is attached to or forms a part of said spring and is adjustable along the path of movement of the clock driven element may be disposed between two faces axially extending away from the setting means, one of which is inclined to an axial line, so that when the setting means is turned towards the datum position the inclined face moves said part clear of the detent, which movement is permitted by reason of the resilience of the spring.

A rotatable indicating member may be connected to the f rictionally restrained member or part moving therewith so that no indicating movement takes place while the lost motion is being taken up. Such an arrangement is particularly applicable to controlling the cooking period of an electric cooker in which case two such mechanisms may be provided one for determining the time when the cooker is to be turned on and the other for determining when the cooker is to be turned oif.

The following is a more detailed description of one such clock actuated mechanism reference being made to the accompanying drawings in which:

FIGURE 1 is a diagrammatic section through the mechanism;

FIGURE 2 is an enlarged diagrammatic view of the detent mechanism;

FIGURE 3 is a more detailed section through the mechanism showing the parts when the coiled spring is loaded;

FIGURE 4 is a plan view of the arrangement shown in FIGURE 3 with the indicating disc removed;

FIGURE 5 is a side elevation of the arrangement in FIGURE 4;

FIGURE 6 is a plan view similar to that of FIGURE 4 but showing the parts in the position they assume after the release of the spring;

FIGURE 7 is a side view of the arrangement of FIG URE 4;

FIGURE 8 is a perspective view of themember 14;

FIGURE 9 is a perspective view of the operating spring; and

FIGURE 10 is a perspective view of the detent.

Asetting spindle 10 has secured to it a manipulatingknob 11, and thespindle 10 extends loosely through an indicatingdisc 12. The spindle has attached to it asetting disc 13 and projects beyond that disc through amember 14 into a bore of aswitch operating member 15 which is shown engaging apart 9 of a switch mechanism. The end of the spindle is flattened so as to engage flats in said bore so that relative axial movement may take place between these two parts but not rotary movement. Themember 14 is rotatably supported by a fixedframe member 16, passing through a hole 45 therein. Themember 14 has fixed to or formed on it, on the same side of theframe member 16 as thesetting disc 13, a further disc orflange 17. Themember 14 on the other side of theframe member 16 has fixed to it aresilient washer 18 which frictionally engages a face of theframe member 16 or an interposedwasher 39. Awheel 20 driven by the clock train is disposed between theframe member 16 and the disc orflange 17 on thebody 14. An axially extendinglug 21 on thesetting disc 13 projects into anarcuate slot 22 in theflange 17 so as to have lost motion therein. Thesetting disc 13 is provided with two axially extendinglugs 23, 24 between which is located aradial extension 25 of an upper convolution of a helically coiledspring 26. The convolutions of the spring are circular in cross-section. The lower convolution has anupturned portion 6 which engages aslot 27 formed in themember 14.

A detent 23 rotates with thepart 14 by reason ofpins 42 which engageholes 41 inpart 14, extend throughholes 41 in the detent 28 and throughslots 44 insetting disc 13 and are fixed in the indicatingdisc 12 and is formed from sheet metal which has aportion 29 bent out of it, a

part of which is shaped to provide acam surface 30 and anitch 31 beyond the cam. The bent outpart 29 is located in a sector shaped recess do (see FIGURE 8) formed in a face of theflange 17. Theextremity 32 of the strip bears against a face of thesetting disc 13. An axially extendingprojection 33 is provided on a face of the clock drivenwheel 2% having a curved face 54 and theradial extension 25 of the spring is arranged in the path of movement of this curved face. The inner face (PIG- URE 2) of thelug 24 on the setting disc is inclined at 35. Thecurved face 34 ensures that thespring extension 25 can pass over theprojection 33 for either direction of relative rotation between thetime wheel 20 and setting.

spindle 10 thus preventing damage to the spring.

The upper face of the switch operating member which is directed towards theresilient plate 18 is provided with acam profile 36. A part of thebody 14 projecting downwardly through theresilient plate 18 is provided with a similarly shapedcam profile 38. Theswitch operating member 15 is spring urged towards thebody 14 and theresilient plate 16.

The indicatingdisc 12 is fixed to thepart 14; by pegs 42.- secured to thedisc 12 which pegs extend throughslots 44 in thesetting disc 13, through holes ll in thedetent 28 and in thepart 14.

The operation of the mechanism is as follows:

Assuming the switch operating member controls a switch for connecting a cooker oven to a source of supply and the various parts are in the positions which they take up after theoperating member 15 has returned to its initial position, the radial extension of thespring 26 will then be away from the cam-face St? on the detent Extension 235 always lies between thelugs 23, 24.Extension 25 will normall but not necessarily be disposed away from theprojection 33 on thetime wheel 26. Thelug 21 on thesetting disc 13 will be at one end the left end as seen in FIGURE 8 of theslot 22.

When it is required to set the cooking starting time the setting spindle in is then rotated clockwise as viewed in plan, so as to move thelug 21 towards the other end of the slot and during this time theoperating member 15 will be rotated relatively to the irictionally restrainedmember 14, and the relative movement between these parts will cause thecam mechanism 36, to shift themember 15 axially and open the switch associated with it and while thelug 21 is moving between one end of theslot 22 to the other, the extension of thespring 25 will be drawn bylug 24 up thecam face 36 away fromprojection 33 and snap over the end so that it then lies in the nitch 3i, and during this time the spring as will e loaded since its other end is fixed relatively tomember 14.

(iontinued rotation of the spindle ill will cause thedisc 13,member 14,resilient plate 18 and theswitch actuatmember 15 to move solidly together by reason of the fact that thelug 21 will be abutting the end of theslot 22 indisc 17 and theextension 25 of the spring will JOVE away from. theprojection 33 on thetime wheel 20 in the direction of its rotation. After the lost motion has been taken up by thelug 21 coming to the end of theslot 22 the indicatingdisc 12 will also move with theflange 17 to which it is attached bypins 42. fter the parts have been appropriately set the projection 35 on the time wheel will, after a predetermined time, come into contact with theextension 25 movin" it upwardly out of thenitch 31 of the detent and thespring 26 will then rotate thesetting disc 13 andswitch operating member 15 so as to close its switch. The frictional restraint provided. by the resilient washer i3 is sufficient to prevent rotation of the part Under certain circumstances after setting the setting mechanism it may be required to release the detent for example in the case where the switch controlled by the operating member 15' connects an electric source of supply to a cooking oven, should the operator after setting the mechanism so that the switch will be automatically closed at some future time and then has a change of mind and wishes to use the cooker immediately it is necessary to retract themember 15 and close the switch. This may be effected by reversing the rotation of the setting spindle which causes the inclined face 35 on the lug 24- to lift the radial extension 250i the spring out of engagement with thenitch 31 on thedetent 2 8 and continued movement of thespindle 10 will cause the switch actuating member to be brought back to its initial position. This reverse rotation of the spindle it must be sufiicient to bring themember 14 back to its initial position.

The operator will then'require to rotate the spindle in the setting direction so as to take up the lost motion and to rotate theswitch operaing member 15 and to ensure that this action is taken a warning light may be associated with the switch mechanism.

While there have been described above What are presently believed to be the preferred forms of the invention, variations thereof will be obvious to those skilled in the art and all such changes and variations which fall within the spirit of the invention are intended to be covered by the generic terms in the appended claims, which are variably worded to that end.

I claim:

1. An adjustable clock controlled mechanism comprising a clock driven element, a rotatable setting spindle, a switch operating member connected to said spindle, an intermediate element rotatable on said spindle, a lost motion connection between the setting spindle and the intermediate element, spring means connected between the setting spindle and the intermediate element, friction means restraining rotation of the intermeditae element as the lost motion is taken up and the spring means are loaded by rotation of the spindle, detent means acting to hold said spring means in a loaded condition, said spring means having a part disposed in the path of movement of the clock driven element, said rotatable setting spindle having means acting to take up the lost motion during the first portion of its motion in a setting sense and simultaneously acting to load said spring means until said spring means is held by said detent means, the movement of said spindle during the taking up of said lost motion acting to move said switch operating member from a first position to a second position, said rotatable setting spindle after the lost motion is taken up having a further and variable portion of its motion of rotation in said setting sense during which it acts to rotate said intermediate element and to locate said part of said spring means at a desired position along the path of movement of said clock driven element so that subsequent engagement of said part by said clock driven element releases said spring means and causes said setting spindle to rotate in a sense opposite to said setting sense under the action of said spring means and returns said switch operating member from said second position to said first position.

2. An adjustable clock controlled switch mechanism according toclaim 1 wherein said spring means comprise a helical spring one end of which forms said part of said spring means and is adjustable along the path of movement of the clock driven element and the other end of said spring is connected to the intermediate element.

3. An adjustable clock controlled mechanism according toclaim 1 wherein said switch operating member which rotates with the setting spindle is axially movable relatively thereto to actuate said switch, said friction means acting between said intermediate element and a fixed part of the mechanism, a cam arranged between the switch operating member and the frictionally restrained intermediate element which imparts axial movement to the switch operating member while lost motion takes place between the'setting spindle and frictionally restrained intermediate element, the setting spindle being 5 constructed to impart rotational movement to the frictionally restrained intermediate element and switch operating member when the lost motion is taken up.

4. An adjustable clock controlled mechanism according toclaim 1 wherein said part of said spring means engageable by the clock driven element is movable into and out of the path thereof, and means actuated by the movement of setting spindle in the opposite sense to said setting sense and engageable with said part for moving it out of said path.

5. An adjustable clock controlled mechanism according toclaim 4 wherein said part of said spring means is disposed between two faces axially extending away from a part fixed to the setting spindle, one of said faces being inclined to an axial line, so that when the setting spindle is rotated in said opposite sense the inclined face engages said part and moves it clear of said detent means.

6. An adjustable clock controlled mechanism according toclaim 1, wherein a rotatable indicating member is connected to said intermediate element.

7. An adjustable clock controlled mechanism comprising a clock driven element, a rotatable setting spindle, a switch operating member connected to said spindle, an intermediate element rotatable on said spindle, a lost motion connection between the setting spindle and the intermediate element, spring means connected between the setting spindle and the intermediate element, friction means restraining rotation of the intermediate element as the lost motion is taken up and the spring means are loaded by rotation of the spindle, detent means on said intermediate element, a part rotating with the spindle and movable into engagement with the detent means when the lost motion is taken up so that when said part is in engagement with the detent means to spring means are held in a loaded condition, said part being disposed in the path of movement of the clock driven element, said rotatable setting spindle having means acting to take up the lost motion during the first portion of its motion in a setting sense and simultaneously acting to load said spring means until said part rotating with the spindle is held by said detent means, the movement of said spindle as the lost motion is taken up acting to move said switch operating member from a first position to a second position, said rotatable setting spindle having a further and variable portion of its motion of rotation in said setting sense during which it acts to rotate said intermediate element and to locate sad part rotating with the spindle at a desired position along the path of movement of said clock driven element so that subsequent engagement of said part by said clock driven element releases said part from said detent means and causes said setting spindle to rotate in a sense opposite to said setting sense under the action of said spring means and returns said switch operating member from said second position to said first position.

References Cited in the file of this patent UNITED STATES PATENTS 2,131,304 Shaw Sept. 27, 1938 2,702,322 Truesdell Feb. 15, 1955 2,706,224 White Apr. 12, 1955 2,905,778 Fox et a1 Sept. 22, 1959 2,943,159 Goodhouse et a1 June 28, 1960 3,021,399 Bowman Feb. 13, 1962 3,032,618 Johnson May 1, 1962

Claims (1)

1. 7. AN ADJUSTABLE CLOCK CONTROLLED MECHANISM COMPRISING A CLOCK DRIVEN ELEMENT, A ROTATABLE SETTING SPINDLE, A SWITCH OPERATING MEMBER CONNECTED TO SAID SPINDLE, AN INTERMEDIATE ELEMENT ROTATABLE ON SAID SPINDLE, A LOST MOTION CONNECTION BETWEEN THE SETTING SPINDLE AND THE INTERMEDIATE ELEMENT, SPRING MEANS CONNECTED BETWEEN THE SETTING SPINDLE AND THE INTERMEDIATE ELEMENT, FRICTION MEANS RESTRAINING ROTATION OF THE INTERMEDIATE ELEMENT AS THE LOST MOTION IS TAKEN UP AND THE SPRING MEANS ARE LOADED BY ROTATION OF THE SPINDLE, DETENT MEANS ON SAID INTERMEDIATE ELEMENT, A PART ROTATING WITH THE SPINDLE AND MOVABLE INTO ENGAGEMENT WITH THE DETENT MEANS WHEN THE LOST MOTION IS TAKEN UP SO THAT WHEN SAID PART IS IN ENGAGEMENT WITH THE DETENT MEANS TO SPRING MEANS ARE HELD IN A LOADED CONDITION, SAID PART BEING DISPOSED IN THE PATH OF MOVEMENT OF THE CLOCK DRIVEN ELEMENT, SAID ROTATABLE SETTING SPINDLE HAVING MEANS ACTING TO TAKE UP THE LOST MOTION DURING THE FIRST PORTION OF ITS MOTION IN A SETTING SENSE AND SIMULTANEOUSLY ACTING TO LOAD SAID SPRING MEANS UNTIL SAID PART ROTATING WITH THE SPINDLE IS HELD BY SAID DETENT MEANS, HE MOVEMENT OF SAID SPINDLE AS THE LOST MOTIONS IS TAKEN UP ACTING TO MOVE SAID SWITCH OPERATING MEMBER FROM A FIRST POSITION TO A SECOND POSITION, SAID ROTATABLE SETTING SPINDLE HAVING A FURTHER AND VARIABLE PORTION OF ITS MOTION OF ROTATION IN SAID SETTING SENSE DURING WHICH IT ACTS TO ROTATE SAID INTERMEDIATE ELEMENT AND TO LOCATE SAID PART ROTATING WITH THE SPINDLE AT A DESIRED POSITION ALONG THE PATH OF MOVEMENT OF SAID CLOCK DRIVEN ELEMENT SO THAT SUBSEQUENT ENGAGEMENT OF SAID PART BY SAID CLOCK DRIVEN ELEMENT RELEASES SAID PART FROM SAID DETENT MEANS AND CAUSES SAID SETTING SPINDLE TO ROTATE IN A SENSE OPPOSITE TO SAID SETTING SENSE UNDER THE ACTION OF SAID SPRING MEANS AND RETURNS SAID SWITCH OPERATING MEMBER FROM SAID SECOND POSITION TO SAID FIRST POSITION.

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