SK5846Y1 - Trigger mechanism of current protector with overcurrent protection - Google Patents

Abstract

Trigger mechanism of residual current circuit breaker with overcurrent protection, comprising a shutter control mechanism associated with residual current circuit breaker control the draw bar and trip relay, the controller (1) of residual current circuit breaker trigger mechanism is positioned control spring (9), whereby in the first lever (3) of the shutter is located in the hole (33) of the first launching the second lever end (22) of the control rods, which reaches into the hole (42) of the rotating body mechanism and in the first lever (3) trigger is designed sleeve (34) of the first lever trigger, which is pivotally located on first pillar (41) of the rotary shutter mechanism of the body, and on the other side of the first lever (3) of the trigger is created the first stop (31) and the first trigger lever stop (32) signaling defects of the protected perimeter of the first lever trigger an intermediate in the second pillar (43) of the rotating body with the trigger mechanism housing (55) of the second trigger lever pivotally placed second lever (5) of the shutter, which has created a flexible upper portion (51) of the second trigger lever, which is designed to claw (53) of the second lever and the trigger stop (52) signaling intermediate position lever trigger, while in the middle of the rotary body (4) trigger mechanism is located the second column (43) rotary shutter mechanism of the body, on which a second lever pivotally (5) initiated by a housing (55) of the second lever trigger, while on the other side of the rotary body (4) trigger mechanism is designed arm (44) rotating the body of the trigger mechanism, while on the carrier (12) pins is pivotally positioned rotating body (4), with a trigger mechanism housing (45) of the rotating mechanism of the body first shutter (45) rotatable lever trigger mechanism body.

Description

Technical field

The technical solution relates to a constructional solution of the residual current circuit breaker release mechanism, which creates protection against fault conditions occurring in residual current protected circuit breakers, where the trigger mechanism also indicates the nature of the failure. The solution is preferably intended for use in circuits with an increased likelihood of human contact with power lines or electrical devices.

BACKGROUND OF THE INVENTION

Current protectors and circuit breakers of various designs and types are known, where the design is mostly based on the principle of spring-loaded lever mechanisms for their on and off functions as well as thermal and overcurrent protection functions. Essentially, they have a mechanism in which an electrical current exceeding the set limit pulls the armature into the electromagnet, which movement is transmitted via the lever and pull mechanism to the locking member of the lever of the movable electric contact whose movement releases the movement of said contact. it moves away from the fixed electrical contact, interrupting the electrical circuit protected by the circuit breaker. The design of the trigger mechanism is present in many variants in known embodiments. The space-saving yet relatively robust and reliable actuators are composed of a lever-shaped actuator that pulls the actuator externally, and this lever is followed by a rod whose curved end either rests directly on the body of the rotary mechanism, as seen for example in FR 2575862 and FR 2630582, or whose bent end is pivotally connected to a rocking auxiliary lever, as shown, for example, in CZ 287559 and FR 2766292. Other known solutions of circuit breaker and circuit breaker mechanisms are disclosed in CZ 299994 and utility models CZ 16526, SK 4921 , CZ 13852, SK 3932 and CZ 16545, SK 4922. These are solutions that are, in terms of durability and reliability, at a higher level than the previously known solutions, but essentially provide protection against overload and short circuit in terms of protection. The disadvantage of the above mentioned solutions is that in the case of a fault current the so-called. Residual current solutions do not provide protection as well as signaling a fault or fault condition, for example when a human is in contact with a phase part of a line in a protected circuit or in the case of a ground fault current.

The essence of the technical solution

The object of the technical solution, which removes the above mentioned drawbacks, is the constructional solution of the release mechanism of the overcurrent protector and its structural elements. The essence of the residual current release mechanism with overcurrent protection according to the invention is that it consists of a residual current release mechanism actuator connected to a control rod and a trip relay, and an actuator spring is located in the residual current release mechanism actuator. a second end of the control rod that extends into the opening of the shutter body of the shutter mechanism, and a first shutter lever housing is formed in the first shutter lever which is rotatably disposed on the first shutter column of the shutter mechanism; and a fault circuit signal of an intermediate circuit of the first trigger lever, wherein the second trigger lever housing in the second column of the rotary body of the trigger mechanism is rotatably disposed with a second trigger lever having an upper a resilient portion of the second trigger lever is formed on which the second trigger lever tooth and the intermediate trigger position signaling tooth are formed, and a second trigger lever arm is formed at the lower portion of the second trigger lever, and a second pivot mechanism mechanism column is disposed in the middle a shutter on which the pivot second shutter lever is disposed by the second shutter lever housing, wherein a shutter arm of the shutter mechanism is formed on the other side of the shutter mechanism swivel body, wherein the shuttle is rotatably mounted on the support pin; a trigger mechanism pivot lever, wherein a first trigger mechanism pawl latch and a second trigger mechanism pawl latch are formed on the first trigger mechanism pawl lever, and a the trigger mechanism spring is disposed in the second trigger mechanism pawl, and the trigger mechanism spring return arm is located, and the trigger mechanism spring reset arm is disposed on the second trigger lever latch, the trigger mechanism spring return arm acts on the handle lever protrusion. the relay and the relay control lever act on the core of the trip relay, wherein a second relay control arm is formed at the other end of the relay control lever which acts on the second trigger lever arm, wherein the trigger mechanism pivot acts through the release lever arm via the trigger mechanism pivot arm the tripping lever, taking

SK 5846 Υ1 the second arm of the breaker lever is seated in the breaker lever control column. The trigger mechanism of the RCD is located in the circuit breaker box. The RCD trigger has three actuator positions, a first off position, a second on position, and a third fault indication position.

BRIEF DESCRIPTION OF THE DRAWINGS

The technical solution is illustrated in more detail by means of the figures in the drawings. In FIG. 1 is a side view of the RCD trip mechanism. In FIG. 2 shows the trip mechanism of the RCD in the off state, FIG. 3 shows the trigger mechanism of the RCD in the on state, FIG. 4 shows a trip mechanism of a RCD with a relay provided after a fault in the circuit; FIG. 5 shows the release mechanism of the RCD in the condition after returning the mechanism to the initial position in FIG. 6 shows the release mechanism of the RCD in the fault signaling position, and FIG. 7 shows the trigger mechanism of the RCD after being reactivated to the initial position.

Example of technical solution

The RCD release mechanism is housed in a RCD housing consisting of a RCD trigger actuator coupled to a control rod and a trip relay, and both the RCD 9 actuator spring and the first trigger lever 33 are disposed in the opening 33 of the RCD. the trigger lever 22 has a second end of the actuator rod that extends into the trigger body aperture 42 of the trigger mechanism, and a first trigger lever housing 34 is formed in a first trigger lever housing 34 rotatably disposed on the first trigger mechanism column 41 and second trigger lever 3 a first tooth 31 of the first shutter lever and a fault protection signal 32 of the intermediate position of the first shutter lever are formed, wherein a second shutter lever 5 is rotatably disposed in the second post 43 of the shutter mechanism pivot body the second trigger lever tooth 53 and the second trigger lever signaling tooth 52 are formed in the upper portion and a second trigger lever arm 54 is formed in the lower portion of the second trigger lever 54, with the middle portion of the pivot body in the lower portion 4 of the trigger mechanism, a second pivoting body column 43 of the trigger mechanism is disposed on which the pivoting second trigger lever 5 is disposed by the second trigger lever housing 55, and on the other side of the trigger mechanism pivoting body 4 is a trigger 44 pivoting body arm. The trigger mechanism housing body 46 is rotatably mounted with the trigger mechanism housing housing 46, the first 45 trigger mechanism lever lever is formed on the first 45 trigger mechanism lever lever, and a first trigger mechanism latch 47 and a second pivotal body latch 48 is formed on the first 45 trigger mechanism lever. a trigger mechanism spring 6 is disposed on the trigger mechanism spring support pin 10, wherein a trigger mechanism spring return arm 62 and a trigger mechanism spring reset arm 61 are disposed in the second latch 48 of the third trigger latch 48 in the second pawl latch 48. a trigger lever 62, and the trigger mechanism spring return spring 62 acts on the relay control lever protrusion 72 and the relay control lever 7 acts on the trip relay core 81, and a relay control lever arm 71 is formed at the other end of the relay control lever 7 54 of the second trigger lever, wherein the trigger mechanism pivot body 4 acts across the disengagement lever arm 111 by the trigger mechanism pivot arm 44 to the disengagement lever H, the second disengagement lever arm 112 being received in the disengagement lever control column 13. The RCD trigger has three actuator positions, a first off position, a second on position, and a third fault indication position.

The operation of the device according to the invention is shown in Figures 2 to 7. 2, the trigger mechanism is in the initial state, which represents the off state, wherein the trigger I of the RCD trigger is in the up position. By moving the actuator and trigger mechanism of the RCD to the down position as shown in FIG. 3, the trigger mechanism is the pressure of both the actuator and the trigger protector mechanism on the control rod 2 acting on the first trigger lever 3, which is engaged on the tooth 31 of the first trigger lever, the entire trigger mechanism being rotated. Turning the trigger mechanism releases the inflow via the second trigger lever spring portion 51 to the first trigger lever tooth 31 and the second trigger lever tooth 53 and also releases the pressure on 81 by the trigger mechanism rotary body 4 which pushes the trigger mechanism reset arm 61 from the projection 72 control levers. The residual current circuit breaker and the residual current circuit breaker trip mechanism are now switched on. In the event of a fault in the circuit that is evaluated by the differential device and the trip relay 8 is activated from its output and the trip relay core 81 is ejected as shown in FIG. 4, wherein the trip relay core 81 presses on the second trigger lever arm 54 and the second 5 trigger lever is pivoted, releasing the first trigger lever tooth 31 and the second trigger tooth 53

SK 5846 Υ1 the release lever and then as shown in fig. 5, after releasing the first trigger lever tooth 31 and the second trigger lever tooth 53, by rotating the trigger mechanism body 4 by pressing the return arm 62 of the trigger mechanism, the trigger mechanism is returned to the initial position and as shown in FIG. 6, the actuator spring 9 returns the actuator actuator 1 to the starting position, but at the tooth 31 of the first actuator lever stops at the tooth 52 of the intermediate position of the second actuator lever and the actuator actuator 1 indicates in the central position that the trip occurred by residual fault shock. Operation by moving both the actuator and the trigger mechanism to the lower position skips the first trigger lever by preloading the resilient portion 51 of the second trigger lever to the protected circuit fault tooth 32 and the second trigger lever signal tooth 52 and the device is off, power contacts open. After the fault has been detected and remedied, the operator activates the RCD to the on position by moving the shutter mechanism actuator 1 to the up position.

Industrial usability

The device according to the invention is useful as a trigger mechanism in residual current circuit breakers providing protection against fault conditions occurring in residual current protected residual current circuit breakers, while the trigger mechanism also indicates the nature of the failure. The solution is intended primarily for use in circuits with an increased likelihood of human contact with power lines, particularly for schools, homes, offices, workplaces, portable devices. The trigger mechanism of the RCD is particularly applicable in series and automated production. The applications provided herein do not limit the further possibilities of applying the present technical solution.

Claims (4)

PROTECTION REQUIREMENTS An overcurrent release RCD trip mechanism, comprising a RCD trip actuator coupled to a control rod and a trip relay, characterized in that an actuator spring (9) is located in the RCD trip actuator (1), a second end (22) of the control rod extending into the opening (42) of the shutter body of the shutter mechanism is provided in the first trigger lever (3) in the first trigger lever hole (33) and the housing (34) is formed in the first trigger lever (3) a first trigger lever which is rotatably disposed on a first pivot (41) of the trigger mechanism pivot body, and on the other side of the first trigger lever (3) is formed a first tooth (31) of the first trigger lever and tooth (32) wherein, in the second pivot body (43) of the trigger mechanism, the pivot housing (55) of the second trigger lever is pivotable. a second trigger lever (5) having a resilient portion (51) of the second trigger lever on the upper portion having a second trigger lever tooth (53) and a second trigger lever signaling tooth (52) in the lower portion and a second (5) lower portion a trigger arm (54) of the second trigger lever is formed, wherein a second column (43) of the trigger mechanism body (43) is disposed in the central portion of the rotary body (4) of the trigger mechanism, on which the rotary second trigger lever (5) is positioned by the housing (55). a second trigger lever, the trigger mechanism arm (44) being formed on the other side of the trigger mechanism rotary body (4), wherein the trigger mechanism rotary body (4) is rotatably mounted on the support pin (12) and rotatable housing (46) of the trigger mechanism, a first (45) lever of the shutter body of the shutter mechanism, wherein a first latch (47) is formed on the first (45) lever of the shutter body of the shutter mechanism o a trigger mechanism rotary body and a second trigger mechanism pawl (48), wherein a trigger mechanism spring (6) is disposed on the trigger mechanism spring support pin (10), and a return arm (2) is disposed in the second trigger mechanism pawl (48). 62) the trigger mechanism springs and the trigger reset arm (61) of the trigger mechanism spring is disposed on the second latch (48) of the third trigger lever, the trigger mechanism return arm (62) being applied to the relay control lever protrusion (72) and lever (7). ) of the relay control acts on the trip relay core (81), wherein a relay control lever arm (71) is formed at the other end of the relay control lever (7). which acts on the arm (54) of the second trigger lever, wherein the rotary body (4) of the trigger mechanism acts through the trigger arm (111) of the trigger mechanism arm (44) of the trigger mechanism on the trigger lever (11); The exciter is stored in the actuator lever control column (13). The residual current circuit breaker release mechanism with overcurrent protection according to claim 1, characterized in that the residual current circuit breaker release mechanism is located in the circuit breaker housing. The overcurrent release device of the RCD according to claim 1, wherein the RCD release has three actuator positions, a first off position, a second on position, and a third fault indication position. SK 5846 Υ1 The overcurrent release of the RCD according to claim 1 and 3, characterized in that the RCD release has a third fault signaling position formed as an intermediate position between the first and second positions.