FR2530072A1 - Switch device, especially circuit breaker of the type with engagement by depression then release of a push button and with disengagement by the deformation of a bimetallic strip - Google Patents

Abstract

The present invention relates to a switch device. This device is of the type with engagement by depression then release of a push button 27 and with disengagement by the deformation of a bimetallic strip 30, a lever 28 with two arms and articulated to the push button 27, which co-operates with the bimetallic strip 30 and the electrical contact elements 32, 33. The device is characterised in that the spring means for closing the contact 32, 33 and the means for restoring the push button 27 are formed by a single spring 36 which bears directly on the lever 28 between the point of articulation of the latter to the push button and the end 43 of the lever 28 which co-operates with the bimetallic strip 30. The invention is applicable to a circuit breaker.

Description

 The present invention relates to a switching device, in particular a circuit breaker, comprising a mechanism of almond of a movable contact, electrically connected to a first external terminal and intended to come into contact, under the effect of spring means, with an element of fito contact relit electriqueinent to a second external terminal, and an element of xterroui lage of the movable element in its position of closure of the contact, such as a bimetallic blade, incorporated at least partly in the electric circuit extending between the two terminals and erasable during the passage of a current exceeding a predetermined value to control the tripping of the circuit breaker by releasing the movable contact element.

 Circuit breakers of this type are already known, in which the control mechanism comprises an external operating member such as a push button, which is movable in translation against a return means between a rest position and a pressed-in position for closing the contact and a lever with two arms, articulated to the operating member. The two arms are adapted respectively to bring the movable contact element into its closed position and to ensure an interlocking engagement of the latter in this position.

 We notice bizou minus two springs are provided in these known circuit breakers, a first spring to ensure contact pressure between the two contact elements and to allow an abrupt closure of the contact, that is to say an abrupt engagement of the circuit breaker and a second spring used to push the push-button out of the circuit breaker in the event of the movable contact element being released by the bimetallic blade, by means of the lever, that is to say in the event of tripping.

 However, the need for at least two springs constitutes a significant drawback of known triggers. It is obvious that the cost price of a trip device increases with the number of parts used, in particular with the number of springs, because, on the one hand, it is also necessary to provide for noting the frame of the circuit breaker suitable means for the housing the springs, which obviously complicates the structure of the receiver - and, on the other hand, mounting becomes more difficult.

 The present invention has to polish nbjecf to provide a circuit breaker which does not have the incc-nvtsnient, known circuit breakers, which have just been described, and which result from the use of at least two springs.

 To achieve this object, the invention proposes a circuit breaker of the type stated above, which is characterized in that the spring means for closing the contact and the means for returning the push button to its rest position are formed by a single spring which bears directly on the lever between the point of articulation of the latter to the push button and the end of the arm of the lever, which cooperates with the bimetallic blade.

 According to an advantageous characteristic of the invention, the carrier member of the movable contact element is provided with a cam which projects in the trajectory of the pivoting of the first arm of the lever towards the contact closure control position, so that the end of this arm slides along this cam to cause the displacement of the movable contact element in the direction of the fixed contact element.

 According to another advantageous characteristic of the invention, the surface of the cam has a boss-shaped region successively forming in the sliding trajectory of the lever arm along the ramp an area of larger and then considerably lower resistance, to produce an abrupt closing effect of the contact.

 According to another advantageous characteristic of the invention, the orqane carrying the movable contact element is formed by an elastic blade fixed at one end to the frame and the cam is formed by a V-shaped part of the blade, the boss being formed by a step tzars the branch of V along which moves the end of the lever control arm.

 According to yet another advantageous characteristic of the invention, the lever with two arms is made of an electrically insulating material and the current conducting member between the bimetallic strip and the movable contact element is formed by a braid welded at one end to the bimetallic strip - and at its other end to the member carrying the movable contact element.

 According to yet another advantageous characteristic of the invention, the braid is welded to the bimetallic blade at an intermediate zone of the free length of the blade and the part of the blade which is not traversed by the current has the form of a U, the free branch of which is determined as an erasable stop for the second arm of the lever and is arranged in relation to the other branch in such a way that the erasable stop moves under the effect of heating of the whole of the blade in the opposite direction to the movement of the remaining part of the blade.

The invention will be better understood and other objects, characteristics, details and advantages thereof will appear more clearly during the explanatory description which follows, made with reference to the appended schematic drawings given solely by way of example illustrating two embodiments of the invention and in which
- Figure 1 is a schematic view of a first embodiment of a circuit breaker according to the present invention
- Figure 2 shows a sectional view of a second embodiment of a circuit breaker according to the present invention, the frame being open
- Figure 3 is a sectional view along line III-III of Figure 2, to illustrate a detail of the invention, the elements which are not related to this detail, such as the push button and the contact elements not being represented
- Figure 4 is a perspective view, on a larger scale, of a terminal of a circuit breaker according to the present invention;
- Figure 5 is a sectional view along the line
VV of FIG. 2, limited to certain essential elements, such as the push button, the lever and the spring, other elements, such as the member carrying the movable contact element having been removed
- Figure 6 is a view on a larger scale, of the detail of the invention at the level of circle VI in Figure 2; and
- Figure 7 shows in a view on a larger scale and in section, with cutaway, a device for deliberately tripping a circuit breaker according to the present invention.

 Figure 1 shows a first embodiment of a circuit breaker according to the present invention. This circuit breaker comprises a frame 1 in which a current input terminal 2 and an output terminal 3 are embedded. An external operating member 4 in the form of a push button is mounted axially sliding in the frame 1, against a spring 6. This button is movable between a rest position indicated in dashed lines and a depressed position illustrated in solid lines. The internal front face 7 of the push button is flat, but inclined relative to the axis of the push button. It thus has an inclined ramp. A lever with two arms 8 is articulated at 9 at the innermost part of the edge of the inclined ramp 7.

The spring 6 is placed below the lever 8 in such a way that it attempts to push the lever towards the inclined ramp 7.

The lever 8 comprises a first arm 10 which is bent and carries at its end a movable contact element il intended to come into contact with a fixed contact element 12 connected to the output terminal 3 and a second arm 13 intended to cooperate with a bimetallic strip 14 electrically connected to the input terminal 2 and the end of which is shaped as an erasable stop 15 for the end 16 of the second arm 13 of the lever 8. It should be noted that the spring 6 is supported on
the lever arm 13 between the articulation point 9 and the end 16. In this embodiment, the lever 8 is made of an electrically conductive material.

The circuit breaker which has just been described operates in the following manner
when the push button occupies its rest position indicated in dashed lines, the lever 8 is in the
position a illustrated in broken lines. By moving the push button 4 by pressing inwardly of the frame, that is to say to its position in solid lines, the lever 8 pushed by the spring 6 in application on the inclined surface 7 of the button- pusher exceeds the erasable stop 15, then snaps below this stop. The lever 8 is then in its position b indicated in solid lines. When the push button is released, the lever 8 pivots around its end 16 retained by the stop 15 and pushes the push button 4 out of the frame 1 until that the movable contact element 11 of the lever comes to bear on the fixed contact element 12.

We then reach the equilibrium position c in which the lever 8 is locked at its two ends, under the pressure of the spring 6. It is obvious that the displacement of the stop 15 to the right, which occurs when the temperature of the bimetallic strip 3 exceeds a predetermined value following the passage of a current greater than a predetermined threshold value causes the unlocking of the end 16 of the lever 8 and therefore the separation of the movable contact element 11 from the contact element fixed 12. In fact, the stop 15 being erased, the lever 8 can pivot from position c to position a, under the effect of the spring 6.

 Figures 2 to 7 show a second particularly advantageous embodiment of a circuit breaker according to the present invention. The circuit breaker comprises a frame 20 which is made up of two embellable half-housings 20a and 20b.

Recesses 22 and 23 in the frame respectively serve as accommodation for the input terminal 24 and the output terminal 25. As in the first embodiment, the circuit breaker comprises an external operating member formed by a push button 27 to which is articulated lever 28. This comprises a first arm 29 intended to cooperate with a bimetallic blade 30 electrically connected to the input terminal 24 and fulfilling the function of an erasable stop and a second arm 31 intended to control the application from the movable contact element 32 to a fixed contact element 33 connects to the output terminal 25. The carrier of the contact element 32 is constituted, in this embodiment, by an elastic blade 35 fixed to a end to the frame 20. The return member of the push button 27 is constituted by a branch spring 36, which is fixed at one end at 38 to the frame 20 and engages at its other end at 39 at the arm 29 of the lever 28. *
In this second embodiment, the lever 28 is made of an insulating material and the conductive element is formed by a braid 40 welded at one end to the bimetallic strip 30 and at its other end to the electrically conductive elastic strip. In this case, there is only one set of contacts and parasitic voltage drops are avoided.

 After the description of the general structure of the second embodiment of a circuit breaker according to the present invention, the following will be described in detail in detail the constructive characteristics of the various components of the circuit breaker, with reference to FIGS. 2 to 7.

 A first feature of the invention resides in the conformation of the bimetallic strip 30. As is clear from FIG. 2, the free part 41 of this strip is curved on itself so as to take the form of a U. The end 42 of this curved part is shaped to serve as an erasable stop at the end 43 of the arm 29 of the lever 28. To this end, the end 43 has a notch 44 in which the end 42 of the blade 30 is likely to be housed in the locked position. It is also found that the braid 40 is welded to the bimetallic blade 30 in a central region 46 due to the free length of the blade 30. This means that only the part of the bimetallic blade which is located between the end fixed to the terminal of outlet 24 and the central zone 46 can be traversed by an electric current. It can be seen that the free branch ending with the erasable stop 42 of the U-shaped part 41 of the bimetallic strip extends relative to the straight part of. the blade in the opposite direction to that of the movement of this part under the effect of heating. Under these conditions, this stop 42 will move to the left and the rectilinear part will be brought to the right during an increase in ambient temperatures. This gives a compensating effect for the influence of ambient temperatures.

 The articulation of the lever 28 to the push button 27 is carried out by a pivot 52 secured to the inner end 48 of the latter. As shown in Figure 5, the lever 28 is rotatably mounted on this pivot 52. To ensure movement of the lever 28 substantially parallel to the direction of movement of the push button 27, the lever is provided with a lateral lug 53 which s 'engages in a suitable notch 54 formed in the wall of the frame. It should also be noted that the point of attack 39 of the spring 36 on the arm 29 of the lever 2 is relatively close to the pivot 52. Thus, the pressure force between the end 42 of the bimetallic blade 30 and the end tee 43 of the lever is relatively small.

 According to another characteristic of the invention, which emerges in particular from FIGS. 2 and 6, the elastic blade 35 carrying the movable contact element 32 has a V-shaped part projecting in the direction of the axis of the push button 27 for the production of a ramp 57 on which the end 58 of the arm 31 of the lever 28 is capable of bearing and along which this end 58 slides under the effect of the spring 36 when the lever 28 pivots around the end 43 of arm 29 after releasing the push button 27. This sliding movement along the ramp 57 causes the application of the movable contact element 32 on the fixed contact element 33. It should be noted that in its rest position indicated in dashed lines in FIG. 2, the elastic blade bears on the lateral face of a part 60 of the frame 20, the upper surface 61 of which forms a stop for the end 58 of the lever 28.

 A feature of the present invention lies in the fact that the ramp 57 of the elastic blade 35 has a discontinuity region 62 successively forming in the sliding path of the end 58 of the lever 27 along this ramp an area of a relatively high slip resistance and a considerably lower resistance zone, to produce an abrupt closing effect of the electrical contact formed by the elements 32 and 33. In the example shown, this discontinuity zone 62 is produced in the form of a step made in the ramp 57 (Figures 2 and 6). This step 62 constitutes an abrupt withdrawal in the sliding path of the ramp 57. This withdrawal abruptly releases the lever 28 which can therefore go up suddenly. This gives an abrupt closure mentioned above of the contact, which is particularly advantageous when the circuit breaker is tripped on short circuit. It should be noted that the ramp 57 of the elastic blade 35 has the advantage that a slight rise in the end 58 of the end 31 of the lever 28 causes a substantially large displacement of the movable contact element 32. The movement , that is to say the stroke of the push button 27 which is articulated with the lever 28 can therefore be relatively small, which limits the maximum size of the circuit breaker.

 Another advantageous arrangement of the circuit breaker which is the subject of the invention lies in the possibility of obtaining a light control by lighting up the push button.

This is possible thanks to the particular shape of the branch spring 36. This spring is completely housed in the functional part along the half-housing 20a.

It therefore provides a space 64 in the frame 20, in which can be housed for example a lamp 65 and an associated resistor 66, capable of being electrically connected, on the one hand, to a conductive terminal 67 blocked in the frame 20 between the terminals 24 and 25 and, on the other hand, at the end fixed to the frame 20 of the elastic blade 35.

The push button will light up insofar as it is molded in a translucent plastic material which conducts light, since the lamp 65 is near the base 48 of the button 27.

 Referring to FIG. 7, it can be seen that the circuit breaker according to the present invention can be equipped with a voluntary tripping means. This means is formed by a push button 78 which carries at its end located inside the frame a head 79 provided with a ramp 80. When the push button 78 is pressed, the ramp 80 pushes the blade bimetallic 30 to the right so that the end 42 of the latter releases the end of the arm 29 of the lever 28. The push button is located relative to the arm 29 of the lever 28 so that it can be brought back in the rest position by the arm 29 which pivots anti-clockwise after tripping of the circuit breaker.

 Other advantageous features of the invention will be described below with particular reference to Figures 2, 3 and 4. It is noted that in these figures the input terminal 24 is a cutting piece in a metal or alloy conductive electricity. It comprises two substantially parallel flat parts 86 and 87, the ends of which protrude from the circuit breaker serve as terminals for electrical connection to the circuit breaker. These two terminals 86 and 87 are interconnected by a flat part 88 located inside the frame 20 and capable of being embedded in the notch 22 of the frame. They each include recesses 89 and 90 allowing their blocking on lugs 91 and 92 of the notch 22. The end 93 of the internal part of the terminal or terminal 87 is slightly laterally offset with respect to the body of the terminal and fits into a recess 94 in the frame 20. This end also includes a threaded hole 95 into which can be screwed a screw 96 for adjusting the position of the bimetallic blade 30. In fact, it can be seen in FIG. 2 that the point of the screw 96 is supported on the bimetallic strip 30. The internal part of the terminal 87 further comprises an area 97 for fixing the bimetallic strip, by riveting or by welding or by any other suitable means.

 It is important to obtain a perfect positioning of the parts at the level of the locking, that is to say of the housing 44 of the arm 29 of the lever 28 with the end 42 of the bimetallic blade 30. This object is achieved thanks to the fact that the end 93 and the part 88 are stuck after their mounting respectively in notches 94 and 22. In addition, the movement of the lever 28 is controlled by the lug 53 guided in the groove 54 dubâti (Figure 5). The fitting of the terminal 24, which has just been described, in the frame 20 makes it possible to carry out the operation of adjusting the position of the bimetallic blade 34 while being sure that the terminal 24 remains rigid and does not move not in relation to the frame.

 Effects exerted on the terminals 86 and 87 during, for example, their connection to an electrical supply, cannot deform the internal part of the terminals because they will first of all bend at the level of the recesses 89 and 90 which constitute areas of less mechanical resistance. Thus, whatever the manipulations exerted on the terminals 86 and 87, the quality of the locking is preserved.

 It should be noted that the output terminal 25 may have the same constructive characteristics as the input terminal 24 just described.

 The particular embodiment of the terminals 24 and 25 each comprising two electrical connection lugs is advantageous because it allows the junction of two circuits to be controlled by the same circuit breaker without it being necessary to provide a special connection device. It also allows bridging between two consecutive poles.

 Referring to Figures 2 and 5, it is observed that all the parts of the circuit breaker are housed in the half-housing 20b very simply. The circuit breaker closes by embolishing the half-housing 20a with the part 20b. It can thus be seen that the mounting of the circuit breaker is particularly simple. On the other hand, with the exception of the push button 27 and the lever 28, no part is superimposed on another, this makes it possible to produce a circuit breaker of very small thickness, therefore limiting its maximum size.

 The operation of the circuit breaker according to Figures 2 to 7 is evident from the description which has just been made of this circuit breaker and generally corresponds to the operation of the embodiment shown in Figure 1. It is only to be observed that in its position before engagement, and after a triggering, the lever 28 occupies the position d indicated in dashed lines in FIG. 2. In this position, the end 58 of the arm 31 is located below the ramp 57 of the elastic blade 35. The rest position of the push button 27 is also represented in phantom. It is obvious that the end 58 of the lever 28 by sliding along the ramp 57 during its pivoting around the end 43 of its arm 29 following a release of the push button 27 causes the element to move. movable contact 32 towards the fixed contact end 33, until these two elements are in mutual support. Then, the lever is in its equilibrium position shown in solid lines by being blocked at its two ends, on the one hand by the bimetallic strip and on the other hand by the ramp 57 of the elastic conductive strip 35, while being subjected to the pressure of the spring 36. Following tripping by erasing of the end 42 forming a stop, of the bimetallic strip 30, the lever 28 pivots in the position d, under the effect of the spring 36.

 It is obvious that multiple modifications can be made to the embodiment of a circuit breaker according to the present invention, which has just been described, without departing from the scope of the present invention. It should be emphasized that the arrangement according to FIG. 2 of the end 58 of the lever 28 constantly below the ramp 57 of the elastic blade 35 constitutes only a very advantageous constructive solution because it allows the realization of a very circuit breaker. compact and very compact. However, one could envisage dimensioning the parts of the circuit breaker in such a way that this end is located above the ramp, in its rest position.

Claims (11)

 1. Switching device, in particular a circuit breaker comprising a mechanism for controlling a mobile contact element electrically connected to a first external terminal and intended to come into contact, under the effect of spring means, with a fixed contact element electrically connected has a second external terminal, and an element for locking the movable element in its position for closing the contact, such as the plain bimetallic blade incorporated at least partially in the electrical circuit extending between the two terminals and erasable during the passage of a current exceeding a predetermined value to cause the opening of the contact by releasing the movable contact element, the control mechanism comprising an external operating member such as a push button movable against a return means between an external rest position and a depressed position for controlling the closing of the contact as well as a lever with two arms, articulated to the operating member, the two arms being both suitable for ensuring the action of the operating member and the locking element on the movable contact element, characterized in that the spring means for closing the contact (11, 12; 32, 33) and the means for returning the push button (4; 27) are formed by a single spring (6; 36) which bears directly on the lever (8, 28) between the point of articulation  (9; 52) from it to the push button and the end (43) of the arm (13; 29) of the lever (S; 28), which cooperates with the locking element (14; 30).  2. Switch device according to claim 1, characterized in that the member (35) carrying the movable contact element is provided with a cam (57) which projects in the path of the pivoting of the arm  (31) of the lever (28) towards the contact closing control position, so that the end (58) of this arm (31) slides along this cam (57) to cause the displacement of the movable contact element (32) towards the contact element (33) against a restoring force.  3. Switch device according to claim 2, characterized in that the surface of the cam (57) has a boss region (62) successively forming in the sliding path of the lever arm (31) along the ramp (57 ) an area of larger and then considerably lower resistance, to produce an effect of abrupt closure of the contact.  4. Switch device according to one of claims 2 or 3, characterized in that the member (35) carrying the movable contact element is formed by an elastic blade fixed at one end to the frame (20) and that the cam (57) is formed by a V-shaped part of the blade (35), the boss (62) being formed by a step in the branch of the V along which the end (58) - of the first lever arm (31).  5. Switch device according to one of the preceding claims, characterized in that the lever (28) with two arms is made of an electrically insulating material and that the current conducting member between the bimetallic strip (30) and the element contact contact (32) is formed by a braid (40) welded at one end to the bimetallic strip (30) and at its other end to the member (35) carrying the movable contact element.  6. Switch device according to claim 5,  characterized in that the braid (40) is welded to the bimetallic blade (30) at an intermediate zone (46) of the free length of the blade (30) and the part (41) of the blade (30) which does not is not traversed by the current has the shape of a U whose free branch is determined in erasable stop for the second arm (29) of the lever (28) and is arranged relative to the other branch in such a way that the stop erasable (42) moves under the effect of a heating of the whole of the blade (30) in the direction opposite to that of the movement of the remaining part of the blade (30).  7. Switch device according to one of the preceding claims, characterized in that the spring (36) is a branch spring, one of which is connected (at 39) to the lever (28) and the other of which is fixed (in 38) to the frame (20), this spring having a shape such that it extends along the walls of the frame while freeing up a cleared internal space (64).  8. Switch device according to one of the preceding claims, characterized in that the lever (28) has at its articulation (52) to the push button (27) a lateral lug (53) guided in a groove (54) which is formed in the internal wall of the frame (20) and extends parallel to the direction of movement of the push button (27).  9. Switch device according to one of the preceding claims, characterized in that at least the input terminal (24) comprises two flat and parallel parts (86, 87) forming lugs, which are connected inside the frame by an intermediate part (88) let a tongue (93) substantially in extension of one of the two parts (86, 87), that the intermediate part (88) and the tongue (93) are embedded in notches (22, 94 ) provided in the internal wall of the frame (20) and in that the planar parts (86, 87) each comprise a recess (89, 90) forming a zone of lower mechanical resistance blocked on a lug (91, 92) notch (22), to prevent deformation of the internal parts of the terminal when the latter is exposed to stresses.  10. Switch device according to claim 7, characterized in that a display member of the switch being such as a lamp (65) can be housed in the space (64) inside the frame , the push button (27) being made of a translucent light-conducting material.  11. Switch device according to one of the preceding claims, characterized in that it comprises a push button (78) for voluntary triggering, which is provided at its internal end (79) with an actuating ramp (80) of the erasable stop (42) and located in the trajectory of the return tilting in its rest position of the lever arm 29 cooperating with the stop (42).