CS249553B1 - Quick-break switches' blocking device - Google Patents

Abstract

The rocker lever rests on the release lever fitted with a stop stop and stored swinging and sliding on the pin. Under the release lever the shifter is provided with a protrusion which is in the space of the circular path of the pin on the locking shaft, on the one hand by contact to the stop lever stop. Against the lever is unilateral on the locking shaft recess. Locks off touch when turned off on the shifter, the return lever moves back and unlocks only after a certain execution tracks in the opposite direction when pinned on the shifting shaft will delay the movement of the shifter ^ from stops on the trip shaft. At the same time the position of the recess changes with the movement of the pin of the locking shaft so that it is not possible movement of the release lever with the stop stop towards the torque switch button. This way, there is no start at the beginning changes in the direction of the servomotor stay off torque switch off, and torque the switch remains off after each shutdown until the change occurs direction of movement. Used for servomotors for adjusting fittings.

Description

The present invention relates to a device for blocking torque switches.

Known devices for blocking torque switches have been designed for each type and size of microswitches. This increases the number of parts to be manufactured, if necessary to incorporate microswitches for different environments or microswitches of different products. Increases commissioning and maintenance requirements ·

The essence of the device for blocking torque switches is that the blade is fixed in the body of the device and one end of the trip lever is rotatably and slidingly mounted. The other end of the cut-off lever is provided with a stop, which is touched by the slider by the action of the tension spring. The shifter is slidably mounted in the body under the cut-off lever. On the one hand, the release lever abuts the end of the rocker lever and presses the release lever onto the surface of the locking shaft, which is provided with a one-sided recess at the location opposite the locking lever. A pin is fastened to the blocking shaft in the space whose circular path a protrusion is formed on the shifter.

The major advantages of the torque circuit breaker locking device of the present invention are that it has few components, high reliability, easy adjustability, and allows the use of circuit breakers of various types and sizes. Devices for controlling each switch form a separate section · The sections can be mounted one above the other, thus increasing the number of switches for each direction of movement, while maintaining the possibility of independent adjustment ·

The device is shown in the attached figures. Fig. 1 is a plan view of the device for a single switch ready to be opened in plan view; Fig. 2 is a plan view of the device in the same operating state; Fig. 3 is a plan view of the device in the state movement of the cut-off lever is blocked. Fig. 4 · the plan view of the device is shown in a state where the movement of the cut-off lever with the cut-off stop towards the torque switch button is blocked ·

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A pin 2 is fixed in the body 2 of the device. · One end of the release lever 1 is rotatably and slidably mounted on the pin 2. A cutout is provided at this end of the release lever 1, the axis of which is perpendicular to the longitudinal axis 1 pushes the pin 2 under the action of a return spring At the opposite end of the release lever 1, there is an abutment 18 on the side of which the abutment 13 is in contact with the shifter 13. · The contact 14 of the shifter 13 is pressed against the side of the stop 18 by a tension spring 15, one end of which is fixed to the body 2 of the device and the other end fastened to the shifter 13. connected to the torque shaft 19. The rocker lever 10 is designed as an angular lever, one arm of which rests on the tripping arm. On the opposite side of the release lever 2 with respect to the rocker 10 there is a locking shaft 8, which is located approximately in the middle of the release lever 1. The release lever 1 is pressed against the surface of the locking shaft 8. By means of a rocking lever 10 »A one-sided recess 9 is formed on the locking shaft 8 in the area of the tripping lever 1. In the basic position this recess 2 is on the locking shaft 8 on the side facing the tripping lever 1. The locking shaft 8 extends into the free space between the lower part of the release lever 1 and the upper part of the shifter 13. A vertical projection 16 is formed against the pin 17 on the shifter 13. The distance between the locking shaft 8 and the projection axis 16 is less than so that the projection 16 is in the circular path of the pin 17 as it rotates. The cut-off lever 1 is also provided with a cut-off stop 6, which is located opposite the button 2 of the torque switch 6 mounted on the body 2 of the device.

The device works as follows. • In the basic position (Fig. 1), the cut-out lever 1 is fully pressed against the pin 2 with its cut-out. 18který opposite end of the trip lever 2 abuts contact 14 «The rocker lever 10 pushes the trip lever 2 towards the recess 2 ^{on the} locking shaft 8. The longitudinal axis of the release lever 2 3® parallel to the longitudinal axis of the phase shifter 13 and the longitudinal axis of the pin 17» Breaking stop The torque switch 6 is switched on. If the recess 2 on the locking shaft 8 is pivoted against the release lever 2 ^and if the rocker 10 is pivoted in the direction of the actuator movement

249 553 to the cut-off lever 1, then the movement of the cut-off lever 1 is not restricted by the surface of the blocking shaft 8. The cut-off lever 3 is rotated around the pin 2 and the cut-off stop 6 approaches the push-button. of the pivoting lever 10, the stop stop 4 engages the torque switch button G, which is connected to the actuator electric control circuit. Thus, the circuit is switched off · When the stop lever 1 is pivoted about pin 2 so that contact 14 stops abutting the stop 18 , then the contact 14 is moved by the tension spring 15 beyond the stop 18 and prevents reversing of the switch-off lever 1> The switch-off lever 1 remains in the deflected position and the torque switch 6 is switched off, even if the direction of travel the lever 10 is rotated in the direction away from the release lever 3. The adjustment of the release stop 6 on the release lever 1 can be made as follows: k, that at the moment the torque switch 8 is switched off or immediately thereafter, the contact 14 is moved beyond the stop 18 «The angle of rotation of the rocker lever 10 required to turn off the tumbler switch 10 can be adjusted by changing the position of the rocker lever 10 · For this adjustment, use the scale 11 · When the direction of movement of the servomotor changes, the locking shaft 8 and the pin 17 are also rotated. · Pin 17 rests against the projection 16 and moves the slider 13 against the tension spring 15 · Thus, if the rocker lever 10 does not touch the release lever 3, the release lever 1 is moved by the return spring 7 to the starting position in which the contact 14 abuts against the side of the stop 18 and at the same time • If the direction of movement of the servomotor changes again, to the rocker lever 10 lies on the release lever 1 with its central part resting against the surface of the locking shaft 8 at a location where there is no recess 6 and the end with the cutout of the release lever 1 slides on the pin 2 against the action of the return spring 1. 4) · It is not possible to move the stop stop £ against the torque switch button £ if the servomotor does not travel a certain distance and the recess £ y of the locking shaft 8 is rotated against the trip lever 3. ·

This ensures that at the beginning of each change of the actuator movement the torque switch 8 is deactivated for a certain period of time. The invention is applied to drive devices which are equipped with torque switches for both directions of movement, both self-locking and non-self-locking devices, in particular actuators for adjusting valves.

Claims (1)

Device for blocking torque switches, characterized in that a bolt (2) is mounted in the housing of the device, on which one end of the trip lever (1) is slidably and rotatably mounted, the other end being provided with a stop (18) tension springs (15) a contact (14) of a shifter (13) slidably mounted in the body (3) below the release lever (1) on which one end of the rocker (10) abuts and pushes the release lever (l) onto the vertical surface a locking shaft (8), which is provided with a one-sided recess (9) at the location opposite to the locking lever (1), and a pin (17) is attached to the locking shaft, the projection (16) ·