US2756612A

US2756612A - Interchangeable interlocking mechanisms for electric switches

Info

Publication number: US2756612A
Application number: US312233A
Authority: US
Inventors: Harold E Schleicher
Original assignee: Arrow Hart and Hegeman Electric Co
Current assignee: Arrow Hart and Hegeman Electric Co
Priority date: 1952-09-30
Filing date: 1952-09-30
Publication date: 1956-07-31
Anticipated expiration: 1973-07-31
Also published as: GB729406A

Description

July 31, 1956 H. E. SCHLEICHER INTERCHANGEABLE INTEIRLOCKING MECHANISMS FOR ELECTRIC SWITCHES 2 Sheets-Sheet 1 Filed Sept. 50. 1952 QDn y 956 H. E. SCHLEICHER 2,756,612

INTERCHANGEABLE INTERLOCKING MECHANISMS FOR ELECTRIC SWITCHES Filed Sept. 50, 1952 2 Sheets-Sheet 2 Fgz 0 1%1117611 EJcTzZeicTter United States Patent INTERCHANGEABLE INTERLO'CKING MECHA- NISMS FOR ELECTRIC SWIICHES Harold E. Schleicher, West Hartford, Conn, assignor to The Arrow-Hart & Hegemau Electric Company, Hartford, Conn., a corporation of Connecticut Application September 30, 1952, Serial No. 312,233

7 Claims. (Cl. 74-483) This invention relates to interlocking mechanisms for electric switches and more particularly for electromagnetically operated electric switches which are used side by side and which must not be operated simultaneously.

Electric switch manufacturers are called upon to supply electromagnetic switches mounted side by side upon a panel or base and provided with interlocking mechanism which will prevent the two switches from being simultaneously operated. However, the diiferent circuits in which the switches may be connected require that the interlocking mechanism function in different ways. Someclose at the same time, and it is helpful to have the closing movement of one facilitate and assist the opening movement of the other.

In order to provide interlocking mechanism at low cost which will satisfy both requirements, it is desirable that the same basic parts be used in both types of operation. It is therefore desirable that simple interchange of interlocking elements be made possible to convert the interlocking mechanism of one type to the interlocking mechanism of the other either at the manufacturers plant or at the customers or users convenience after he has the apparatus installed.

Therefore it is an object of the invention to provide interlocking mechanisms for electromagnetically operated switch mechanisms and the like which are convertible from one type to another by a simple interchange of a r single element.

Another object of the invention is to provide interlocking mechanism which can be used to absolutely prevent the closing movement of one switch when the associated switch is either partially or fully closed or, alternatively, will prevent the closure of one switch while the other is closed and will utilize the closing movement of one switch to facilitate and assist the opening movement of the other.

A related object is to provide interlocking mechanism wherein by interchange of one element the interlocking mechanism may be converted from one type to the other without the need of tools or other equipment.

Another object is to provide interlocking mechanism of the aforesaid type to avoid the need for the manufacturer to provide a stock of parts for diiferent mechanisms to provide the different functions aforesaid.

Another object of the invention is to provide interlocking mechanism adapted to accomplish the foregoing objectives and to perform the aforesaid functions with a minimum number of parts and which may be economical- 2,756,612 Patented July 31, 1956 ly manufactured and assembled without sacrificing durability or accuracy.

Other objects and advantages of the invention will become apparent as it is described in connection with the accompanying drawings.

In the drawings:

Fig. 1 is a plan view illustrating a pair of electromagnetic switches mounted side by side and provided with interlocking mechanism embodying the principles of the invention.

Fig. 2 is a plan view, partly broken away, of the mechanism illustrated in Fig. 1, with both switches open and the interlocking element in place to absolutely prevent closing movement of one switch until the other is open.

Fig. 3 is a view similar to Fig. 2, with one of the switches closed.

Figs. 4 and 5 are views similar to Figs. 2 and 3 but with another interlocking element substituted.

Fig. 6 is a perspective view of the interlocking mechanism according to Figs. 1, 4 and 5 with the switches open.

Fig. 7 is a perspective view of the interlocking element used in Figs. 2, 3 and 8.

Fig. 8 is an enlarged fragmentary view of a portion of the parts as shown in Fig. 2.

Referring to the drawings, and particularly to Fig. 1, a pair of similar electromagnetic

electric switches

10 and 12 are shown as mounted upon a fiat back plate or panel 1.3 of any suitable material. For convenience the invention may be considered as applied to electromagnetic switches of the general type illustrated in the Schleicher Patent No. 2,399,575, issued April 30, 1946, in which an insulating block or base, such as 101) and 12b, is spaced from a back or mounting plate 13 providing a space for the electromagnet and operating mechanism of the switch between the base and back plate. On top of the base, adjacent opposite edges, are mounted conventional wire terminals 101 and 12! to which line and load wires are connectible. Connected with each terminal is a fixed contact, not visible, being obscured by cover members of

switches

10 and 12. The fixed contacts are engaged and disengaged by bridging contacts (not shown) which are operated by the movement of an electromagnet armatnre like or 12a when the electromagnet is energized and deenergized, thereby to cause switch closing and opening. Preferably the electromagnet armature is of T-shape as shown but it need not necessarily be of such shape.

The motion of the electromagnet armatures 10a and 12a is transmitted to the operating mechanism and switch contact by means of transverse rods 10r and 121' which may be connected with the operating mechanism in any suitable fashion. These rods are connected to the armatnres by connecting links 10c and 12c which may be stamped from sheet metal into substantially U-shape and assembled with their legs lying upon the top and bottom surfaces, respectively, of the portion of the armatures 19a and 12a and pivotally connected thereto by pivot pins 18p and 12p. Such connection leaves the armature free to adjust its face to the faces of the electromagnet field piece, while yet causing the transverse rod to move with the armature.

in the present invention the to and fro movement of the transverse rods 101' and 12r is transmitted to yoke members 103 and 12y stamped from sheet metal into U-shape and having the rods passing thru their parallel leg portions. The motion of the yoke member, transverse rod and electromagnet armature is transmitted to pivoted levers 2i? and 40 of interlocking mechanisms by means of T-shaped connecting bars or

links

22 and 42, the link 22 being pivotally connected upon the end of the lever by a flat-headed pivot pin 23 and the connecting bar link 42 being connected to the end of the lever by a similar pivot pin 43. Pairs of links may be used, if desired, as

shown. The interlocking

levers

20 and 40 are pivotally mounted by flat-

headed pivot pins

21 and 41 in their mid portions upon a frame member designated generally by the numeral 30. The frame member may be conveniently starnped from a strip of sheet metal into substantially U-shape with its

parallel legs

31 and 32 supported from feet 33 and 34, respectively, outturned from the ends thereof. They, in turn, may be secured to the back plate 13. The central or transverse portion of the frame is offset downwardly in the direction of the legs and feet of the frame. Riveted to the offset portion of the frame 30 is the upper portion or arm 36a of a supporting member 36 stamped from sheet metal into substantially Z-shape. Its lower portion or foot 36 is riveted to the back plate 13. Near the end of its upper part or arm 36a is mounted a pivot pin 39 upon which may be mounted one of the interlocking members hereinafter more fully described. Also mounted upon the arm portion 36a at apoint spaced from the pin 39 and near the portion connecting arm 36a and foot 36 is another pivot pin 38 upon which may be mounted the other of the interlocking members hereinafter described.

From the foregoing it may be observed that when one or another of the armatures of the switches and 12 is energized, the interlocking

lever

20 or 40, as the case may be, will be caused to pivot about its

mounting pin

21 or 41, causing the inner end of the interlocking lever to move downwardly, as the invention is viewed in the drawings. When the armatures are released by deenergization of the electromagnet, their normal weight will cause them to move downwardly by gravity (which may, if desirable, be assisted by a spring as in my prior patent). Such downward movement will cause the inner ends of the interlocking levers to move upwardly, as viewed in the drawings.

Assuming that it is desired to provide interlocking means to absolutely prevent any movement of the electromagnet armature toward switch closing position, i. e., upwardly in the drawing, until the armature of the other electromagnet switch has fully dropped out, I provide for this purpose an interlocking member designated generally by the numeral 50. As may best be seen in Figs. 2, 3, 7 and 8 this member comprises two thin stamped sheet metal strips constituting top and

bottom plates

54, 52 With rounded ends. They are spaced apart at one end by a collar 51 thru which passes a hollow rivet 55 whose ends are peened over upon the outer surfaces of the upper and lower plates. Between the opposite ends of the plates is a cylindrical roller or locking member 56 whose reduced ends extend thru small apertures in the top and

bottom plates

54, 52. The interlocking member 50 is mounted by slipping the hollow rivet upon the mounting pin 38. The interlocking member 50 is thus pivotally supported between the ends of the interlocking

levers

20 and 40.

The swinging interlocking lever is of such length and its pivot pin 38 is so located that the roller 56 will lie in the path of the inner end of one interlocking lever (the right lever 40, for example, in Fig. 8), if the left or other lever 20 has been caused to pivot (as in Fig. 3) by the energization of the armature 10a. Such movement of the left lever 20 will have forced the roller 56 toward the right in the drawings, so that any effort by right lever 40 to move, if the armature 12a should become attracted, will be prevented entirely by the enegagement of the bottom inner corner of the right lever 40 with the roller 56, the roller being unable to move out of the path of lever 40 because of engagement with the end of left lever 20.

Preferably the ends of the interlocking levers are made arcuate about the axes of their

respective pivot pins

21 and 41, so that the armature of the energized magnet will be free to drop out as soon as it is deenergized, carrying the end of the associated interlocking lever upward. But during such drop-out motion the roller 56 remains immovable by reason of the curvature of the end of the 4 interlocking lever causing that lever to remain in engagement with the roller until the armature has fully dropped out.

The pivotal motion of the

levers

20 and 40 is normally limited by the motion which the switch mechanism permits the armatures and transverse rods 101' and 12m to have. Hence, the ends of those levers never pass out of the path or are of movement of the locking roller 56. However, at the end of the drop-out movement of one armature the locking roller 56 should be able to move enough to permit the other interlocking lever to move in case its armature it attracted. To enable such movement of the roller 56 the lower corners of the inner ends of the interlocking

levers

20, 40 are slightly curved, permitting the roller to be pushed just enough by one of the levers 2t), 4t? toward the other to enable said one lever to clear the roller or at least to slide on its surface.

From the foregoing it will be clear that it is impossible for one switch to close while the other is closed, and furthermore one can not start its closing movement until the other has fully opened or dropped out.

To enable the member 59 carrying the locking roller 56 to be assembled and removed after the remainder of the structure has been completely fabricated and remains assembled, the bottom plate 54 is cut away on each side, as at 54a, so that the portion between the cuts can drop between the ends of the interlocking levers as the member 50 is mounted on the pivot pin 38.

When it is desired to provide an interlock which not only will prevent both switches from being actuated at once but also will utilize the energization of one to aid and hasten the drop-out action of the other, an interlocking member of bell-crank shape, as illustrated in Figs. 4 and 5, is used instead of the member 55. This member 60 may be fabricated from two plates of bell-crank shape stamped from thin sheet metal and secured together in spaced relation by a hollow rivet 64 passing thru a collar 65. The hollow rivet 64 also serves as a bearing for pivotally mounting the bell-crank member on the pivot pin 39 which it will be recalled is mounted upon the member 36 near the end thereof. Mounted in the ends of the bell-crank member are

rollers

66 and 68 having reduced ends forming bearings extending thrus the upper and

lower plates

61 and 63 of the bell-crank member. These rollers are adapted to engage in

notches

25 and 45 formed, respectively, in the interlocking

levers

20 and 40 by cutting away a portion of the lower edge of the inner ends of the interlocking levers.

The

notches

25 and 45 are preferably formed so that when one armature, for example the armature 10a in the left switch, is attracted and the left interlocking lever 20 is caused to pivot, the surface of the notch 25 will engage the left roller 66 and cause the bell-crank member to pivot in counterclockwise direction. Such pivoting of the bell-crank lever will cause the right roller 68 to move up fully into the notch 45 of the right interlocking lever 40, as may be observed by reference to Fig. 5. In this position of the parts the interlocking lever 20 and the arm carrying the roller 66 are nearly parallel so that the lever action of the interlocking lever 20 is exerted to maximum extent against the roller 66 and the bell crank lever, tending to maintain it in the position of Fig. 5. If now the switch at the right should have its armature 12a attracted, it would attempt to move the interlocking lever 40 in counterclockwise direction as the switch 12 tried to operate. However, such action is prevented by the engagement of the roller 68 within the notch 45 and against the surface of the interlocking lever 40. Due to the position of the arm carrying the roller 68 which approaches a angle with the interlocking lever 40, the component of the force exerted by lever 40 tending to move the bell-crank member in clockwise direction is less than that which attempts to move it in counterclockwise direction as exerted by the switch 10. Hence, energization of the switch and movement of the parts in the position of Fig. 5 prevent actuation of the switch 12 in case its electromagnet should be energized. If the electromagnet of switch 10 should now be deenergized, the parts would fall into the position of Fig. 4.

However, if the parts were in the position of Fig. 5 and the switch It should be deenergized and the switch 12 should become energized at about the same time, the upward movement of the armature 12a and concomitant counterclockwise rotation of the interlocking lever would cause the bell-crank member 60 to move in clockwise direction and the force exerted by the roller 66 against the interlocking lever 20 would assist the drop-out action of the armature 10a, by causing the interlocking lever 20 to move counterclockwise about its pivot 21.

Obviously, the reverse of the above described actions would occur if the switch 12a had had its electromagnet energized and was actuated first.

From the foregoing it will be obvious that I have provided an interlocking mechanism for use in connection with electromagnetic switches mounted side by side which can be used either to prevent absolutely the operation of one switch until the other has completely been deener gized and dropped out, or it can be used merely to prevent operation of the two switches simultaneously while facilitating the dropping-out action of one switch when the other has become energized. Moreover, the adaptability of this mechanism to use, under the different conditions above described, is accomplished very simply and with minimum expense and trouble by merely substituting one interlocking element for another, to wit, the element for the element 60, and vice versa. It will be clear that this substitution can take place after the switches have been installed and wired or it can be done at the factory or by the seller or user at any time when it is convenient or desirable.

Another advantage of the invention is that it can be applied to conventional electromagnetic switches, and the conversion from one type of interlocking to the other can be accomplished utilizing all of the parts of the interlocking mechanism except one.

Although the interlocking element can be in place, as illustrated in Fig. 1, when the interlocking element 5@ is used, element 60 would not be eifective and its functions could not be performed while the element 50 remamed in place, since the latter will prevent absolutely operation of one switch prior to the other dropping out completely.

In order to prevent the interlocking

elements

50 and 60 from falling off their pivotal mounting when one or the other is used, and at the same time in order to facilitate replacement or removal of the one element or the other when it is necessary to replace one by the other, a manually removable bifurcated securing member 70 may be provided. Such a member may conveniently be stamped from sheet metal in the shape illustrated in Fig. 2. Its

bifurcations

72 and 74 may be seated or fitted within necks, such as 3811, formed in the top of the pivot pins 38 and 39 by cutting circumferential grooves therein just above the

members

50 and 60. By making the bifurcations slightly springy it is easily possible to fit the securing member 70 onto the device with the bifurcations embracing both of the necks on the pivot pins 38 and 39 simultaneously.

Many modifications within the scope of the invention will occur to those skilled in the art. Therefore I do not limit it to the specific form of parts as illustrated and described.

What I claim is:

l. Interlocking mechanism for electromagnetic switches comprising a pair of pivoted levers adapted to be moved by electromagnet armatures between unattracted and attracted positions, an interlocking element, means on said levers engageable by said element to prevent movement 6 of one lever into attracted position while the other lever is in attracted position, and furthermore to prevent movement of one lever toward attracted position until the other lever has moved fully into unattracted position, a second interlocking element, other means on said levers engageable by said second element to prevent movement of one lever into attracted position while the other lever is in attracted position, said second element transmitting the motion in switch-actuating direction of one lever to assist movement of the other lever in the opposite direction, means enabling said interlocking elements to be jointly mountable in their usual operating positions.

2. interlocking mechanism for electromagnetic switches cornprisin a pair of pivoted levers adapted to be moved by electromagnet armatures between unattracted and attracted positions, an interlocking element, means on said levers engageable by said element to prevent movement of one lever into attracted position while the other lever is in attracted position, and furthermore to prevent movement of one lever toward attracted position until the other lever has moved fully into unattraced position, a second interlocking element, other means on said levers engageahle by said second element to prevent movement of one lever into attracted position while the other lever is in attracted position, said second element transmitting the motion in switch-actuating direction of one lever to assist movement of the other lever in the opposite direction, frame means on which said levers are mounted, means on said frame means for pivo-tally mounting said interlocking elements, individually, said pivotal mounting means being located to enable mounting of both said interlocking elements at once, and said interlocking elements being formed to permit functioning of said first element while second element is in place.

3. interlocking mechanism for electromagnetic switches comprising a pair of pivoted levers adapted to be moved by electromagnet armatures between unattracted and attracted positions, an interlocking element, means on said element engageable by said levers to prevent movement of one lever into attracted position while the other lever is in attracted position, and furthermore to prevent move ment of one lever toward attracted position until the other lever has moved fully into unattracted position, said levers having their adjacent ends each curved on a radius concentric with its pivotal axis, said curved ends having sliding engagement with said means on said interlocking element during movement of one lever or the other between attracted and unattracted positions, and said means on said interlocking element preventing any movement of the other lever while movement of one lever between attracted and unattracted positions is occurring.

4. The mechanism as claimed in claim 3, wherein the means on the interlocking element abuts the one lever While sliding over the other between attracted and unattracted positions preventing any movement of the one lever while the other is in any position but fully unattracted, and means on said levers permitting limited movement of said interlocking element when both levers are in unattracted position, so that either one can start toward attracted position.

5. interlocking mechanism for electromagnetic switches comprising a pair of pivoted levers adapted to be moved by electromagnet armatures between unattracted and attracted positions, an interlocking element, means on said element engageable by said levers to prevent movement of one lever into attracted position while the other lever is in attracted position, and furthermore to prevent movement of one lever toward attracted position until the other lever has moved fully into unattracted position, said levers having their adjacent ends each curved and in sliding engagement with said means on said interlocking element during movement of one lever or the other between attracted and unattracted positions, and said levers each exercising a camming action on said element concomitant with initiation of movement toward attracted position preventing any movement of the other lever toward attracted position.

6. Interlocking mechanism for electromagnetic switches comprising a pair of pivoted levers adapted to be moved by electromagnet armatures between unattracted and attracted positions, an interlocking element, means on said element engageable by said levers to prevent movement of one lever into attracted position while the other lever is in attracted position, and furthermore to prevent movement of one lever toward attracted position until the other lever has moved fully into unattracted position, said levers having their adjacent ends each curved and in sliding engagement with said means on said interlocking element during movement of one lever or the other between attracted and unattracted positions, means pivotally mounting said interlocking element, and said levers each exercising a camrning action on said element concomitant with initiation of movement toward attracted position preventing any movement of the other lever toward attracted position.

7. Interlocking mechanism for electromagnetic switches comprising a pair of pivoted levers adapted to be moved by electromagnet armatures between unattracted and attracted positions, an interlocking element, means on said levers engageable by said element to prevent movement of one lever into attracted position while the other lever is in attracted position, and furthermore to prevent movement of one lever toward attracted position until the other lever has moved fully into unattracted position, said means on the levers comprising adjacent curved ends in sliding engagement with said interlocking element during movement of one lever or the other between attracted and unattracted positions, and said levers each exercismg a camming action on said element concomitant with initiation of movement toward attracted position preventing any movement of the other lever toward attracted position, frame means on which said levers are pivotally mounted, means pivotally mounting said interlocking element on said frame means, and means for mounting a second interlocking element on said frame means While said first element remains mounted in operative position, other means on said levers engageable by said second element to prevent movement of one lever into attracted position while the other lever is in attracted position, said second element transmitting the motion in switch-actuating direction of one lever to assist movement of the other lever in the opposite direction, said second element being formed and located not to interfere with operation of said first element but said second element being inefiective while said first element is in place.

References Cited in the file of this patent UNITED STATES PATENTS 885,061 Lee Apr. 21, 1908 1,071,506 Bryant Aug. 26, 1913 1,151,720 Ruddick Aug. 31, 1915 1,565,498 Read Dec. 15, 1925 1,800,200 Hill Apr. 14, 1931 2,108,634 Wilms Feb. 15, 1938 2,396,972 Russell Mar. 19, 1946 FOREIGN PATENTS 563,911 Great Britain Sept. 5, 1944