FR2950472A1 - EMERGENCY STOP DEVICE - Google Patents

Abstract

The invention relates to a switching device, in particular of the emergency stop type, comprising a first set and a second set (2) intended to be mounted on the first set (1). The switching device of the invention comprises means for monitoring that the second set (2) is hooked on the first set (1). These means make it possible to keep the controlled electric circuit open as long as the first set (1) is mechanically disconnected from the second set (2). For this, the pusher (4) is divided into two main parts (40, 41). The device comprises a locking member (42) able to hold the second part (41) assembled on the first part (40) and unlocking means intended to act on the locking member (42) to release the second part ( 41) of the first part (40) when the first assembly (1) is mechanically disconnected from the second assembly (2).

Description

Emergency stop device

The present invention relates to a switching device. The invention more particularly relates to an emergency stop type switching device.

As a rule, an emergency stop device comprises a first assembly carrying the actuating member and a second assembly consisting of a contact block intended to be mounted on the first set. The contact block comprises a movable bridge supporting movable contacts actuated by the actuating member 1 o relative to fixed contacts from a closed position to an open position to open an electrical circuit in case of emergency . In an emergency stop device, the contacts are therefore of normally closed type. When mounting the device, the first set and the second set are mounted mechanically on either side of a wall. The contact block is therefore invisible to the user. It is therefore impossible for the user to know permanently if the first set is mounted on the second set. But a stall of one of the sets relative to the other no longer allows the device to work properly. Since an emergency stop device is intended to exert a safety function, it is necessary that this device operate correctly. For this, we must ensure that the first set is well hooked to the second set. It is particularly known from US patents 6,198,058 and DE4101493 devices for monitoring the attachment of the first set on the second set. In these two patents, a set of normally closed contacts and a set of normally open contacts are put in series on the electrical circuit to be controlled. When mounting the first set on the second set normally open contacts close, ensuring that both sets are properly mounted. In normal operation, when pressing on the actuator, the normally closed contacts open. The object of the invention is to propose a new solution making it possible to ensure that the first assembly is well mounted on the second assembly. This solution is simple in operation and is made in a limited space. This object is achieved by a switching device comprising: a first assembly comprising an actuating member that can assume a rest position and an actuating position, a second assembly intended to be mounted on the first assembly and comprising a pushbutton actuable by the actuating member and adapted to drive a movable bridge carrying movable contacts actuated relative to fixed contacts between an open position and a closed position for respectively opening or closing an electrical circuit according to the position of the organ actuator, the pusher having a first portion adapted to cooperate with the first assembly, a second portion cooperating with the movable bridge and a locking member adapted to maintain the second part assembled on the first part, the device comprising unlocking means intended to act on the locking member to release the second part of the first part lo rsque the first set is mechanically disconnected from the second set. According to one feature, the movable bridge is mounted on a first return spring and the device comprises a second return spring compressed between the first part and the second part of the pusher when the second part of the pusher 20 is held assembled on the first part of the pushing with the locking member. According to another feature, the stiffness constant of the second spring is higher than the stiffness constant of the first spring. According to another feature, the unlocking means comprise a fixed stopper made on a housing of the second set. According to another feature, the unlocking means comprise mechanical return means mounted between the first part of the pusher and a fixed part relative to the housing of the second set. In another feature, the locking member has cam shapes for cooperating with corresponding cam shapes on the fixed stop. According to another feature, the locking member is in the form of a rider with a central portion and two lateral branches. In another feature, the first portion of the pusher has a slot for receiving the central portion of the rider. According to another feature, the second portion of the pusher comprises holding means cooperating with corresponding means formed on each of the lateral branches of the locking member to maintain the second portion of the assembled pusher on the first part. According to another feature, the movable bridge is operable along an axis of translation corresponding to the control axis of the actuating member. The invention has the advantage of preserving the conventional architecture of the contact block which consists in particular in employing a single double-acting mobile bridge operable in translation. Other features and advantages will become apparent from the following detailed description with reference to an exemplary embodiment shown in the accompanying drawings, in which: FIG. 1A shows in longitudinal section the switching device of FIG. In the first state of operation, FIGS. 1B to 1E show in detail the second set of the device of the invention as well as partially the first set of the device of the invention in various other states. 2A to 2C show in perspective the assembled elements of the second assembly of the device of the invention, in three distinct states of operation, Figure 3 shows in exploded view the pusher used in the second set of the device of the invention. 'invention. The invention relates to a switching device and more particularly to an emergency stop device, also called a punch switch.

In known manner, an emergency stop type switching device comprises two distinct sets 1, 2. Referring to Figure 1A, the first assembly 1 comprises an actuating member 10 to be depressed in an emergency by the operator along a control axis (X) to open an electrical circuit (not shown). The actuating member 10 can thus take a rest position in which it is not depressed leaving the electric circuit closed and an actuating position in which it is depressed to open the electrical circuit. The second set 2 is a contact block for controlling the 1 o electrical circuit. A contact block generally comprises a housing 20 containing a pusher 4 on which the actuating member 10 acts and a movable bridge 22 carrying movable contacts 221, said movable bridge 22 being actuated in movement with respect to fixed contacts. 201 between a closed position (FIG. 1A) and an open position (FIG. 1B) for respectively closing or opening the electrical circuit according to the position of the actuating member 10. When the actuating member 10 is in the rest position, the movable bridge 22 is in the closed position of the electrical circuit (FIG. 1A) and when the actuating member 10 is in the actuating position, the movable bridge 22 is in the open position of the electrical circuit (Figure 1B). The movable bridge 22 is for example actuated in translation 20 along the control axis (X) in the direction of opening by the pusher 4 and in the closing direction by a first spring, called a contact pressure spring 30. , mounted between the movable bridge 22 and the housing 20 and for forcing the movable bridge 22 to its closed position. The movable bridge 22 cooperates with the pusher 4 via a functional clearance which is filled when the pusher 4 presses on the movable bridge 22 against the contact pressure spring 30 to drive it towards a opening position (Figures 1A, 1B and 1D). The switching device of the invention further comprises means for monitoring that the second set 2 is hooked on the first set 1. These means make it possible to keep the electric circuit open as long as the first set 1 is mechanically disconnected from the second set 2. For this, the invention consists mainly in separating the pusher 4 of the second set in two parts (Figure 3). The first portion 40 of the pusher is intended to cooperate with the actuating member 10 while the second portion 41 of the pusher cooperates with the movable bridge 22. The first portion 40 of the pusher and the second portion 41 of the pusher are assembled to using a locking member 42 and the second portion 41 of the pusher can be released from the first part of the pusher using unlocking means acting on the locking member 42. Referring to Figure 3 , the first part 40 of the pusher more particularly comprises a head 400 against which the actuating member 10 comes to rest when the second set 2 is correctly mounted on the first set 1. The head comprises in particular a slot 401 intended to receive the locking member 42. It also comprises a cutout whose complementary shape corresponds to that of the second portion 41 of the pusher. The first part 40 of 1 o pusher and has a general shape L reversed. This cutout forms a bearing surface 402 perpendicular to the axis (X) against which a first end of a second spring, called the opening spring 31, extends along the axis (X), the second end of the spring 31 being in abutment against the second portion 41 of the pusher 4. The spring 31 is for example guided on a rod 403 standing on the bearing surface 402. Parallel to the control axis (X) , on a surface perpendicular to the bearing surface, the first portion 40 of the pusher may comprise a guide rail 404 so as to guide the second portion 40 of the pusher in a translational movement along the control axis (X) under the action of the opening spring 31. The second portion 41 of the pusher is for example in a generally rectangular parallelepiped shape intended to occupy the space released by the cut made on the first portion 40 of the pusher. The second portion 41 of the pusher comprises a longitudinal shape 410 which is complementary to the guide rail formed on the first portion 40 of the pusher and an orifice 412 at the bottom of which 25 is supported by the spring 31 and in which is housed the rod 403 provided on the first part 40 of the pusher. The second part 41 of the pusher comprises two symmetrical lugs 411a, 411b made on the two opposite lateral faces parallel to the control axis (X). In normal operation, the opening spring 31 is held compressed between the first portion 40 and the second portion 41 of the pusher 4 by the locking member 42 which joins the two parts of the pusher to thereby form a single piece. The locking member 42 is in the form of a metal band folded jumper thus having a central portion 420 and two lateral branches 421a, 421b symmetrical folded each 90 ° relative to the central portion. Each of the lateral branches has near its free end an opening 422a, 422b. Furthermore, each side branch comprises a folded wing 423a, 423b at 90 ° towards the inside of the jumper in a plane parallel to the control axis.

The locking member 42 is positioned so that its central portion 420 is inserted into the slot 401 made in the first portion 40 of the pusher and that its two lateral branches 421a, 421b extend parallel to the control axis (X) and the two opposite side faces of the second portion 41 of the pusher. When the pusher is assembled, the second return spring 31 is compressed between the first portion 40 of the pusher and the second portion 41 of the pusher and the lugs 411a, 411b of the second portion 41 of the pusher each come to be housed in an opening 422a, 422b made on a side branch of the locking member 42. The unlocking means comprise a fixed abutment 200 15 made on the housing 20 of the contact block. This stop 200 (FIGS. 2A to 2C) is intended to cooperate with the locking member 42 and more specifically with the two wings 423a, 423b of the locking member 42. The unlocking means further comprise return means, for example formed of two return springs 32, 33, mounted between the first portion 40 of the pusher and the housing 20. These 20 return means 32, 33 allow to go up the first portion 40 of the pusher when the first set 1 is absent and they are compressed when the first set 1 is hooked on the second set 2 and when the actuating member 10 is actuated and presses on the pusher 4. According to the invention, the movable bridge 22 is thus likely to take three 25 distinct positions shown in Figures 2A to 2C, these three positions being defined by three positions of the pusher. These positions are defined by the interactions between the different return springs 30, 31, 32, 33 employees and are specified below: When the first assembly 1 is hooked on the second assembly 2, in normal operation, the movable bridge 22 can take a closed position. A functional clearance between the movable bridge 22 and the second portion 41 of the pusher (FIG. 1A) makes it possible to allow a degree of freedom in translation to the movable bridge 22 with respect to the second portion 41 of the pusher and thus to guarantee the electrical contact thanks to the force provided by the contact pressure spring 30. In this position, the predominant spring 30 is therefore the contact pressure spring 30 which is mounted directly on the movable bridge 22 and which forces the movable bridge 22 towards its closed position (FIG. 2B). When the first assembly 1 is hooked on the second assembly 2, the movable bridge can also take an open position by action on the actuating member 10. In this case, the actuating member 10 presses on the push 4 which compresses the two return springs 32, 33 mounted between the first portion 40 of the pusher and the housing 20 and the pusher 4 holds the movable bridge 22 against the contact pressure spring 30 (Figure 2C). When the first assembly 1 is not hooked on the second assembly 2 or is not correctly hooked on the second assembly 2, the movable bridge 22 is placed in an open position. This opening position is determined by the stiffness constant of the opening spring 31 mounted between the first portion 40 of the pusher and the second portion 41 of the pusher, this stiffness constant to be higher than that of the pressure spring 30 of contact mounted on the movable bridge 22. Indeed, the opening spring 31 is pressed on the movable bridge 22 by going against the contact pressure spring 30. The operation of the device of the invention is described more specifically below in connection with FIGS. 1A to 1E: FIG. 1A shows the first assembly 1 hooked on the second assembly 2 and the actuating member 10 not actuated. The first portion 40 and the second portion 41 of the pusher 4 are held together by the locking member 42. The pusher 4 is depressed by the actuating member 10 which slightly compresses the two return springs 32, 33. The movable bridge 22 is in the closed position under the action of the contact pressure spring 30. Figure 1B shows the first assembly 1 hooked on the second assembly 2 and the actuating member 10 actuated. The first portion 40 and the second portion 41 of the pusher are always held together by the locking member 42. The pusher 4 is pressed deeper by the actuating member 10 towards the inside of the contact block to push and hold. the movable bridge 22 against the contact pressure spring 30 causing the opening of the contacts.

FIGS. 1C and 1D show the first set of hooks 1 of the second set 2. The first part 40 of the pusher rises as far as possible under the action of its two return springs 32, 33 and the fixed stop 200 made on the housing 20 cooperates with the two wings 423a, 423b of the locking member 42 causing the progressive separation of its two branches 421a, 421b as and as the rise of the first portion 40 of the pusher. The two branches 421a, 421b of the locking member 42 are progressively released and the two lugs 411a, 411b made on the second portion 41 of the pusher (Figure 1C). The fixed stop 200 serves as a cam to sufficiently separate the lateral branches 421a, 421b of the locking member 42. When the second portion 41 of the pusher is released, it is driven by the opening spring 31 located between the first part 40 of the pusher and the second portion 41 of the pusher. The stiffness constant of this spring 31 being higher than that of the contact pressure spring 30, the movable bridge 22 is pushed by the opening spring 31 to an open position of the contacts (Figure 1 D). FIG. 1E shows the resetting of the device and the reassembly of the pusher 4. For this, the first set 1 is hooked on the second set 2 and the actuating member 10 is actuated to lower the first part 40 of the pusher and the locking member 42 until the latter resets on the second portion 41 of the pusher. Then returning the actuating member to its rest position, the assembled pusher 4 rises and the movable bridge 22 returns to the closed position. The device is thus operational and ready for operation (FIG. 1A). The invention therefore makes it possible to ensure that the contacts remain open when the first set is not hooked on the second set. The principle employed in the invention is particularly simple and uses a simple double break contact bridge. Of course, different means can be used to assemble the two parts of the pusher between them or to disassemble these two parts.

Claims (10)

REVENDICATIONS1. Switching device comprising: a first assembly (1) comprising an actuating member (10) able to assume a rest position and an actuating position, a second assembly (2) intended to be mounted on the first set (1) and comprising a pusher (4) actuable by the actuating member and adapted to drive a movable bridge (22) carrying movable contacts (221) actuated relative to fixed contacts (201) between an open position and a closing position for respectively opening or closing an electric circuit according to the position of the actuating member (10), characterized in that: the pusher (4) comprises a first part (40) adapted to cooperate with the first assembly ( 1), a second portion (41) cooperating with the movable bridge (22) and a locking member (42) adapted to hold the second portion assembled on the first part, the device comprises unlocking means for acting on the worm organ rusting (42) to release the second portion (41) of the first portion (40) when the first set (1) is mechanically disconnected from the second set (2). 2. Device according to claim 1, characterized in that the movable bridge (22) is mounted on a first return spring (30) and in that the device comprises a second return spring (31) compressed between the first part ( 40) and the second portion (41) of the pusher (4) when the second part of the pusher is held together on the first part of the pusher by means of the locking member (42). 3. Device according to claim 2, characterized in that the stiffness constant of the second spring (31) is higher than the stiffness constant of the first spring (30). 15 20 4. Device according to one of claims 1 to 3, characterized in that the unlocking means comprise a stop (200) fixed on a housing (20) of the second set (2). 5. Device according to claim 4, characterized in that the unlocking means comprise mechanical return means mounted between the first portion (40) of the pusher and a fixed portion relative to the housing (20) of the second assembly (2). 6. Device according to claim 4 or 5, characterized in that the locking member (42) comprises cam shapes for cooperating with 1 o corresponding cam shapes formed on the stop (200) fixed. 7. Device according to one of claims 1 to 6, characterized in that the locking member (42) has the shape of a jumper with a central portion (420) and two lateral branches (421 a, 421 (b). 8. Device according to claim 7, characterized in that the first portion (40) of the pusher comprises a slot (401) for receiving the central portion (420) of the rider. 9. Device according to claim 7 or 8, characterized in that the second portion (41) of the pusher comprises holding means cooperating with corresponding means formed on each of the lateral branches (421a, 421b) 20 of the locking member. (42) to maintain the second portion (41) of the assembled pusher on the first portion (40). 10. Device according to one of claims 1 to 9, characterized in that the movable bridge (22) is operable along a translation axis corresponding to the control axis (X) of the actuating member (10). . 25