FR2524999A1 - Temp. protected lever assembly for operation of stopcock - uses bimetal strip to release locking ball to allow spring to close valve at predetermined temp. - Google Patents

Abstract

A rotatable valve in a shut-off valve is coupled through its operating shaft and the internal element of an operating lower body to an operating lever. This allows the valve to be opened or closed manually. Locking of the internal element to the casing is effected by an oscillating rotary lever of which one arm is loaded in the locking position by a spring and bimetal strip. The nose piece of the other arm of the lever acts on the inclined face of a locking shaft to press a locking ball onto a spherical seat on a coupling disc formed on the internal element. At high temp. the bimetal strip expands to release the locking ball and allow a spiral spring to rotate the valve to the closed position.

Description

Operating lever for switching devices.

 The present invention relates to an operating lever for switching devices, in particular for shut-off valves, comprising a temperature protection device, which has a spring-loaded drive in the normal operating state, as well as a temperature-controlled switching element which, when a determined high temperature is reached, operates the spring drive to actuate the operating lever in the opening or closing direction.

 By the patent application put for public inspection in the Federal Republic of Allemaane under the number 25 12 931, there is known an operating lever of this type for shut-off valves which, in the closed position, is loaded by a spring, which is armed in the open position of the stop valve and is blocked in this armed state by a solid mass which evaporates, liquefies or otherwise loses its state of solid aggregate only at one determined temperature. As mass we use stearin, wax, putty, but also metals, such as the Wood alloy. The protection of the operating lever against temperature is achieved by the fact that the mass , the instant the melting point is exceeded by undesirable temperature effects, begins to melt or soften so that the elastic force acting on the operating lever can become effective in the closing direction.

 A serious drawback of this temperature protection is that, when temperatures change, the structure and mechanical strength of the materials used as fusion inserts change and the mass serving as a fusion insert is deformed under the effect of the elastic force acting on the operating lever. The melting inserts become deformed the more often fluctuations in the ambient temperature occur, until the load-bearing straight section of the melting insert gives the locking force for the lever is so small that the force necessary for the automatic closing or opening of the operating lever, or even a smaller force, is sufficient to shear the fusion insert, so that the lever then maneuver opens or closes automatically at temperatures below the dangerous temperature, thereby causing faults and false alarms.

 The invention aims to develop an operating lever comprising a device for protection against temperature, for switching devices of different types, which has, compared to known fire protection levers, significantly improved operating safety.

The operating lever according to the invention is characterized by:
a) an inner part fixedly mounted on the actuating axis of the switching device (stop valve),
b) a housing, arranged coaxially with the inner part and having a handle, in which the inner part is rotatably mounted,
c) a coupling element interposed between the inner part and the housing in the form of a prearranged spring,
d) a locking device between the housing and the interior,
e) a bimetallic strip serving as a switching element for unlocking the lock when a determined rise in ambient temperature occurs, and
f) stops arranged respectively on the housing and on the inner part, which cooperate, as limiters of the switching stroke of the operating lever, with a counter-stop fixedly mounted on the switching device.

 The bimetallic strip, used in the operating lever according to the invention as a temperature-controlled switching element, also deforms, of course, when temperature variations occur, but it always returns to its starting position without performing a function or give an order. It is only when the set tripping temperature is reached that the bimetallic strip unlocks, by a lever system, the locking of the drive spring for closing or opening the operating lever. When unlocking the spring drive, all of the stored elastic force is suddenly released and the switching device is closed or opened, blind and without delay. In this switching process, the various component parts of the locking devices are mounted in such a way that it is not possible to return this locking device to its starting position. After the operating lever has cooled, the switching device remains open or closed, in the event of unauthorized operation of the lever.In the event of unauthorized removal of the operating lever, the locking device between the lever housing and the inner part unlocks automatically, so that the lever can only be reused after repair by a specialist.The operating lever having temperature protection, which closes or opens automatically, without external energy, when an room temperature rise, can be used for switching devices of different types, such as shut-off valves, shutters, valves, electrical switches and other similar devices.

Preferably:
- the locking device between the lever housing and the inner part has an oscillating lever mounted to rotate in the housing, one of the arms of which is loaded in the locking position by a pressure spring and by the bimetallic strip which are pressed on the inner part, and the other arm of which acts by a spout on a locking rod, which is guided, with the possibility of sliding, in the lever housing and a locking ball is pressed on a corresponding spherical seat of the internal part ;;
- The coupling spring is arranged in a spiral spring, one end of which is rigidly connected to the lever housing and the other end of which is rigidly connected to the inner part ret
- the inner part has a coupling disc which rests on the spiral spring and which has a spherical seat on the locking ball, as well as a shaft end having a passage for a fixing screw and a reduced external section on which the pressure spring and the bimetallic strip are supported for the operation of the oscillating lever
- the locking device between the lever housing and the internal part has at least two locking rods which can slide in the housing, which are arranged diagonally opposite and whose lower ends are pressed upwards by a ball mounted on a corresponding spherical seat of the inner part, while the upper ends apply, by means of inclined surfaces and other locking balls, locking forces on a pressure disc by which, in connection with a sleeve pressure, a bimetal spring clamped between the housing and the interior is blocked
- the lever housing and the inner part are connected to each other so that they can rotate relative to each other, by means of a split elastic ring
- A cover is provided, which is fixed on the end of the shaft of the inner part, which is intended to close the lever housing, and on the outer part of which is fixed a marker indicating the position of the lever.

The invention is further explained in the following, by two exemplary embodiments shown in the drawing, in which
FIG. 1 is a partial view, in longitudinal section, of a first embodiment of the operating lever mounted on a stop valve,
FIG. 2 is a sectional view of the stop lever along line II-II of FIG. 1, and
Figure 3 is a partial view, in longitudinal section, of a second embodiment of the operating lever.

 In the two exemplary embodiments, the identical or similar constituent parts bear the same reference numbers.

 The main constituent parts of the operating lever 1 according to FIGS. 1 and 2, which is equipped with a temperature protection device and which is intended for a stop valve 2, are the inner part 5 fixedly mounted on the operating axis 3 of the turn 4 of the shut-off valve 2, the housing 7 of the lever, which is arranged coaxially with the inner part 5, which is provided with a handle 6 and in which the inner part 5 is mounted rotated, the spiral spring 8 previously armed, serving as a coupling element between the inner part 5 and the lever bolier 7, a locking device between the lever housing 7 and the inner part 5, the bimetallic strip 9 serving as a switching to unlock the locking device when a determined rise in ambient temperature occurs, as well as stops 10, 11 which are arranged respectively on the lever housing 7 and on the inner part 5, and which cooperate as limiters of co switching lever of the operating lever 1 with a counter-stop 13 fixedly mounted on the plug 12 of the stop valve 2.

 The interior part 5 is locked with the housing 7 of the operating lever by an oscillating lever 14 rotatably mounted in the housing 7, one of the arms 14a of which is loaded in the locking position by a spring of pressure 15 and by the bimetallic strip 9 which rest on the inner part 5. The other arm 14b of the oscillating lever 14 acts by a spout 16 on the inclined surface 18 of a locking rod 17 which is guided, with possibility sliding, in the housing 7 of the lever, and presses a locking rod 19 on a corresponding spherical seat 20 of the interior part 5.

 The inner part 5 has a coupling disc 21 resting on the spiral spring 8 and having a spherical seat 20 for the locking ball 19, as well as a shaft end 22 having a passage for a fixing screw 23 of the inner part 5 on the axis 3 of the turn, as well as a reduced outer section 24 which serves to support the bimetallic strip 9 and the pressure spring 15.

 The lever housing 7 and the interior part 5 are connected to each other so that they can rotate relative to each other, by means of an elastic ring 25.

 On the shaft end 22 of the inner part 5 is fixed a cover 26 intended to close the housing 7 of the lever. On the cover is provided an arrow 27 for locating intended to indicate the position of the lever.

 At normal temperatures, the lever housing 7 and the interior part 5 are rigidly coupled to one another by the locking device. By turning the handle 6 clockwise, the stop valve 2, mounted for example in a gas pipe, arrives at the open position in which the light 28 of the turn 4 establishes communication between the inlet light 29 and the outlet light 30. The switching stroke of the operating lever 1, when the stop valve 2 is opened, is limited by the abutment of the stop 10 disposed on the housing 7 of the lever with the counter-stop 13 which is mounted fixed on the valve 2 valve.The opening position of the stop valve 2 is indicated by the position 27 'of the locating arrow 27 on the cover 26 of the operating lever 1.

 By turning the handle 6 anticlockwise, the stop valve 2 is closed, the switching stroke being limited by the arrival of the stop 11, taking position 11 ′ and being on the part inside 5 of the operating lever 1, in contact with the counter-stop 13 of the plug 12. In the closed position of the stop valve 2, the light 28 of the turn 4 takes the position 28 ′ at 90 relative to the direction through the valve, so as to interrupt the communication between the inlet light 29 and the outlet light 30 of the stop valve 2.

 When the ambient temperature becomes too high, for example due to a fire, the bimetallic strip 9 acting as a temperature protection device comes into action and unlocks the locking device between the lever housing 7 and the inner part 5 of the operating lever 1. This occurs by the fact that the force acting, due to the expansion of the bimetallic strip 9 under the effect of temperature, in addition to that which acts on the arm 14a of the oscillating lever 14, which is a slightly less than the triggering force of the oscillating lever 14 and is supplied by the pressure spring 15 which is pre-armed, gives another force component so that the unlocking force of the locking device is exceeded. is pressed upward anti-clockwise, the spout 16 of the arm 14b sliding on the inclined surface 18 of the locking rod 17 and releasing it. The torque applied by the spiral spring 8 previously armed on the inner part 5 causes the locking ball 19 to be pushed upwards out of the spherical seat 20 of the coupling disc 21 of the inner part 5 and the latter turns anti-clockwise towards the closed position in the fixed housing 7 of the lever, which is blocked by the coming into contact of the stop 10 on the counter-stop 13 of the plug 12, and thus the tap stop 2 which was open closes. I1 is also possible by moving the turn 4 on the axis 3, to open the stop valve 2 by the spiral spring 8 of the operating lever 1, during a rise in ambient temperature.

 After unlocking the locking device between the lever housing 7 and the inner part 5, due to a rise in ambient temperature, for example in the event of fire, it is no longer possible to change the set position. closing or opening the operating lever by turning the handle 6.

 Depending on the value of the switching forces necessary to operate the shut-off valve 2, or any other switching device, the locking device for the operating lever 1 may have several oscillating levers 14 which lock the interior part 5 and the housing 7 mutually. lever respectively by a locking rod 17 and a locking ball 19.

 It is possible to replace the drive 8 with spiral spring by a pressure or tension spring and the pressure spring 15 for actuation of the oscillating lever 14 of the locking device by a tension spring or by a disc spring. .

 In the second embodiment 31 of the operating lever according to FIG. 3, the interior part 5 is locked in the housing 7 by at least two locking rods 17, 17 which are arranged diagonally opposite, which are guided so as to be able to slide, the lower ends of which are pushed upwards in the direction of the arrow a by locking balls 19 mounted in corresponding spherical seats 20 of the inner part, and the upper ends of which apply, by through an inclined surface 18 and other locking balls 32, locking forces in the radial direction b on a pressure disc 33. Between the housing 7 and the inner part 5 is blocked a bimetal spring 35 arranged as a leaf spring, which is blocked by the pressure disc 33 and by a pressure socket 34. The pressure disc 33 and the pressure socket 34 are guided, with the possibility of sliding, on the reduced section 24 of the inner part 5.

 When a rise in ambient temperature occurs, the bimetal spring suddenly expands to come into position 35 'and projects the compression sleeve 34 and the compression disc 33 on the cover 26 of the housing, so that the locking rod 17 and the locking ball 19 are unlocked and the operating lever 31 of the stop valve 2 is automatically put in the closed or open position, in the manner described in connection with the first embodiment of the lever 1.

 The operating lever described above can also be used with advantage as a frost protection device.

 Finally, there is the possibility of mounting the operating lever, if necessary, with small modifications, in shaft drives as a safety coupling.

Claims (8)

 1. Operating lever for switching devices, in particular for shut-off valves, comprising a temperature protection device, which has a spring-loaded drive in the normal operating state as well as a switching element temperature controlled, which, when a high temperature is reached, operates the spring drive to actuate the operating lever in the opening or closing direction, characterized by the following arrangements  a) an inner part (5) fixedly mounted on the axis (3) of actuation of the switching device (stop valve 2).  f) stops (10,11) disposed respectively on the housing (7) and on the inner part (5), which cooperate, as limiters of the switching stroke of the operating lever (1), with a mounted abutment (13) fixed on the switching device (2).  e) a bimetallic strip (9.35) serving as a switching element for unlocking the locking mechanism when a determined rise in ambient temperature occurs, and  d) a locking device between the housing (7) and the interior part (5),  c) a coupling element interposed between the inner part (5) and the housing in the form of a spring (8) which has been previously reinforced,  b) a housing (7), arranged coaxially with the inner part (5) and having a handle (6), in which (7) the inner part (5) is rotatably mounted,  2. Lever according to claim 1, characterized in that the locking device between the housing (7) of the lever and the inner part (5) has an oscillating lever (14) rotatably mounted in the housing (7), the one of the arms (14a) is loaded in the locked position by a pressure spring (15) and by the bimetallic strip (9) which are supported on the internal part (5), and the other arm (14) of which acts by a spout (16) on a locking rod (17), which is guided, with the possibility of sliding, in the housing (7) of the lever and a locking ball (19) is pressed on a spherical seat (20) corresponding to the inner part (5).  3. Lever according to claim 1 or 2, characterized in that the coupling spring (8) is arranged in a spiral spring, one end of which is rigidly connected to the housing (7) of the lever and the other of which end is rigidly connected to the inner part (5).  4. Lever according to one of claims 1 to 3, characterized in that the inner part (5) has a coupling disc (21), which rests on the spiral spring (8) and which has a spherical seat (20) for the locking ball (19), as well as a shaft end (22) having a passage for a fixing screw (23) and a reduced external section (24) on which the pressure spring (15 ) and the bimetallic strip (9) are pressed to operate the oscillating lever (14).  5. Lever according to claim 1, ca acterized in that the locking device between the housing (7) of the lever and the inner part (5) has at least two locking rods (17,17) which can slide in the housing (7), which are arranged diagonally opposite and the lower ends of which are pressed upwards (a) by balls (19) mounted in spherical seats (10) corresponding to the interior part (5), while that the upper ends apply, by means of inclined surfaces (18) and other locking balls (32), clamping forces on a pressure disc (33) by which, in connection with a pressure sleeve ( 34), a bimetal spring (35) l clamped between the housing (7) and the inner part (5) is blocked.  6. Lever according to one of claims 1 to 5, characterized in that the lever housing (7) and the inner part (5) are connected to each other so that they can rotate relative to one another. to the other by means of an elastic ring (25).  7. Lever according to one of claims 1 to 6, characterized by a cover (16), which is fixed on the shaft end (22) of the inner part (5), which is intended to close the housing (7 ) lever, and on the outside of which is fixed a mark (27) indicating the position of the lever.  8. Use of the operating lever according to one of claims 1 to 7, as a safety coupling for drives-shafts.