DE102006042187B4 - Immediate release mechanism for a molded case circuit breaker - Google Patents

Abstract

An instantaneous trigger mechanism for a molded case circuit breaker, comprising: a fixed solenoid (261) for generating a magnetic force that is variable depending on a current flowing in a circuit; a hinged armature (262) arranged to face the fixed electromagnet (261) and rotatable to a position to release the molded case circuit breaker via the magnetic force from the fixed electromagnet (261), if any strong current exceeding a normal current flowing in the circuit; a spring (267) for resiliently biasing the hinged armature (262) in a direction in which it is separated from the fixed solenoid (261); an adjusting selector member (266) having a cam surface (266a) for adjusting a gap between the hinged armature (262) and the fixed solenoid (261); an adjusting rod (265) which is in contact with the cam surface (266a) of the adjusting selector member (266) at one end and in contact with the hinged armature (262) at the other end and which is rotatable to clear the gap by pressing the selector member (266a) Hinged armature (262) according to a position in which it is in contact with the cam surface (266a) of the adjusting selector element (266); Delay units connected to the hinged armature (262) for delaying immediate deployment when the high current exceeding the normal current flows in the circuit; wherein the delay units comprise a weight (269) connected to the hinged armature (262).

Description

The present invention relates to a circuit breaker provided with a molded case, and more particularly to an instantaneous release mechanism for a molded case circuit breaker capable of adjusting a trip current sensitivity using a simple mechanism and method to produce a reliable molded case circuit breaker which provides a constant trip current sensitivity corresponding to products.

In general, a molded case circuit breaker refers to one of electrical devices that automatically breaks a circuit when an overcurrent or short circuit current is electrically generated on a circuit between a power source and an electrical load.

The molded case power switch broadly comprises a terminal unit connected to a power source or an electric load, a fixed contact and a movable contact electrically connected to the terminal unit, a switching mechanism for switching (opening or closing) Closing) of a circuit by moving the movable contact to a position in which it is in contact with the fixed contact, or in a position in which it is separated from the fixed contact, and an immediate trigger mechanism for detecting (sensing) a strong Current, when the strong current, which is higher than a normal current, flows through the circuit so as to trigger the switching mechanism to move to a trip position for opening (interrupting) the circuit.

The molded case circuit breaker having such a construction is usually used as connected to the circuit for turning on / off the circuit between a power source and an electric load, or for interrupting the circuit when abnormal Power is generated, thereby protecting the electrical load and the circuit.

Other than operating the switching mechanism manually into the switching position of the circuit, on the other hand, the molded case circuit breaker, when an abnormal current is generated in the circuit, detects the abnormal current that is generated so as to be in position to move in which the circuit is automatically interrupted. Such a process is referred to as a triggering process.

When a current corresponding to a multiple of the rated current flows across the circuit, an immediate trip function is required so that the molded case circuit breaker detects it to immediately break the circuit (i.e., perform the trip operation).

US 2003/0197581 A1 discloses a method and a magnetic trip unit for actuating a latching mechanism to trip a circuit breaker in the event of overcurrent.

GB 1,056,917 discloses a circuit breaker with a molded housing.

EP 0 923 101 A2 discloses a thermal and magnetic tripping unit for a multi-pole circuit breaker having a thermal structure with a bimetallic element and one or more heating elements.

DE 1 098 589 discloses a quick release for installation in motor protection switch and similar monitoring devices, consisting of a current flowing through the current to be monitored core coil and an aspiring in its initial position armature, which operates at different Ankeransprechbeschleunigungen different strong-acting delay means.

EP 0 984 476 A2 discloses a tripping device of a main circuit breaker which places only a branch circuit breaker in a tripped state when an abnormal current occurs at a load of the branch circuit breaker while the main circuit breaker remains closed.

The present invention relates to an improved mechanism for the immediate release of the circuit breaker provided with a molded housing. An instantaneous release mechanism of a molded case circuit breaker according to the related art will now be described.

The 1 FIG. 12 is a cross-sectional view illustrating a structure of a typical molded case circuit breaker, and FIGS 2 Fig. 15 is a longitudinal sectional view illustrating an instantaneous triggering mechanism.

As it is in the 1 and 2 includes a typical cased power switch 100 solid contacts 110 and 120 , which are connected to a power source or an electrical load, a movable contact 130 which is rotatable in a position in which the movable contact 130 with fixed or immovable contacts 110 and 120 is in contact (ON) and disconnected (OFF or TRIP), a switching mechanism 140 for moving the movable contact 130 to the contacted or disconnected position for turning on / off a circuit, a handle 150 , which with the switching mechanism 140 connected to the switching mechanism 140 to manually drive, an immediate trigger mechanism 160 for detecting a case that a strong current exceeding a normal current flows across the electric circuit between the power source and the electric load, thereby to control the switching mechanism 140 to trigger, to move to a trip position for switching the circuit, and an arc extinguishing mechanism 170 for extinguishing an arc which exists between the movable contact 130 and the fixed contacts 110 and 120 is generated when the movable contact 130 from solid contacts 110 and 120 is disconnected.

A detailed construction of the instantaneous release mechanism 160 according to the embodiment of the related art will now be with reference to the 2 be explained.

As it is in the 2 includes the immediate release mechanism 160 According to the prior art, a fixed electromagnet, which is fixedly arranged on a conductor between the fixed contacts 110 . 120 and a terminal for generating a magnetic attraction force proportional to a high current when the large current flows through the circuit; and a hinged anchor 162 which is mounted to the fixed electromagnet 161 which is in a close position to the fixed electromagnet 161 or in a position away from the fixed electromagnet 161 is rotatable and which is an operating unit 162a for performing a tripping operation at its upper end portion.

The trigger mechanism 160 According to the prior art comprises a triggering part 163 one end of which is a locking arm 153a and the other end with the switching mechanism 140 connected, a cross bar 164 , which is rotated in a position to the trigger part 163 to lock or release, and which is rotatable in a position for releasing the release member by a push by the operating unit 162a of the hinged anchor 162 , and a hiring voter 166 having a side surface configured as a cam surface for adjusting a triggering current sensitivity of the instantaneous triggering mechanism.

The trigger mechanism 160 The prior art further comprises a first drive force transmission rod 165 , which has an upper end with the cam surface 166a of the setting selector 166 is in contact and a lower end for transmitting a driving force and which is rotatable according to an adjustment of a contact point on the cam surface 166a , wherein the adjustment of the rotation of the Einstellwählers 166 results; a second drive force transmission rod 168 , which is rotatably installed in a position in which the upper end 162a of the hinged anchor 162 is in contact so as to drive the driving force from the first driving force transmission rod 165 on the hinged anchor 162 transferred to; and a spring 167 , whose upper end by the first drive force transmission rod 165 is supported and the lower end by the second drive force transmission rod 168 is supported so as to drive the driving force from the first driving force transmission rod 165 to the second drive force transmission rod 168 while transmitting a relative position between the setting selector 166 and the first drive force transmission rod 165 and a relative position between the second drive force transmission rod 168 and the hinged anchor 162 as a set (set) position to maintain.

An upper surface of the setting selector 166 has a connection groove (not shown) for a screwdriver to allow a user to adjust the trip current sensitivity of the molded case circuit breaker. The side surface of the setting selector 166 is as the cam surface 166a executed, which has a changing radius such that the first drive force transmission rod 165 , which with the cam surface 166a is in contact, corresponding to a contacting position with the cam surface 166a is turned.

The hinged anchor 162 is preloaded by a torsion spring (a reference numeral is not assigned to it) disposed at its lower portion, so as to apply an elastic force in a direction closer to the fixed electromagnet 161 to recieve. The upper end 162a of the hinged anchor 162 is by the second drive power rod 168 stopped. Accordingly, the hinged armature 162 be continuously in a state that it is from the fixed electromagnet 161 is spaced.

An operation for setting a tripping current sensitivity of the immediate tripping mechanism for the circuit breaker, which includes a cast housing, according to the prior art has such a construction, as will now be explained.

The sensitivity with respect to a trip current depends on a distance between the fixed electromagnet 161 and the hinged anchor 162 from. That is, a short distance therebetween gives a high sensitivity, while a long distance therebetween gives a low sensitivity. Therefore, if the distance is set to be short, the triggering mechanism will become so sensitive as to initiate the tripping operation even when a normal current flows, namely, a current close to a rated current. If the distance is set to be long, the triggering mechanism will only perform the tripping operation if a significantly higher current than the rated current flows across the circuit.

Thus, by turning the Einstellwählers 166 in a clockwise direction for obtaining a high sensitivity with respect to the tripping current, the upper end of the first drive force transmission rod 165 brought into contact with a position in which the radius of the cam surface 166a is large, and at the same time becomes the first driving force transmission rod 165 turned clockwise. Accordingly, the spring 167 lowered to the second, pushed drive force transmission rod 168 to release (to unlock). The second drive force transmission rod 168 is then rotated clockwise. Consequently, a resilient biasing force of the torsion spring on the hinged armature 162 which thereby approaches close to the fixed electromagnet 161 is moved by a distance corresponding to a distance to which the second drive force transmission rod 168 has been turned. Thus, the current sensitivity through the circuit by which the trip operation is initiated can be set to be higher.

In contrast, in order to obtain a low sensitivity with respect to the tripping current, in particular to set the current on the circuit for initiating the tripping operation, to be much higher than the rated current when the setting selector 166 is rotated counterclockwise, the upper end of the first drive force transmission rod 165 contacted with a position in which the radius of the cam surface 166a is small, and at the same time becomes the first driving force transmission rod 165 turned counterclockwise. Accordingly, the spring 167 lifted to the second drive force transmission rod 168 to press. The second drive force transmission rod 168 is thereby rotated counterclockwise. As a result, the hinged anchor overcomes 162 the elastic biasing force of the torsion spring so as to be from the fixed electromagnet 161 by a distance corresponding to a distance to which the second drive force transmission rod 168 is turned to move away. Therefore, the current sensitivity via the circuit for initiating the tripping operation can be set to be lower, in particular to the hinged armature 162 to be operated with respect to a strong current across the circuit.

The tripping operation of the instantaneous tripping mechanism of the prior art will now be explained.

After adjusting the current across the circuit so that the trip mechanism initiates the trip operation, specifically, adjusting the trigger sensitivity when an abnormal current (eg, a short-circuit current) is generated across the circuit as a high current equal to a multiple of the rated current, becomes the fixed electromagnet 161 magnetized by the strong current to thereby generate a large magnetic attraction. The magnetic attraction of the solid electromagnet 161 here is much larger than a braking force of the second drive force transmission rod 168 through the spring 167 , Accordingly, the operating unit comes across 162a of the hinged anchor 162 the second drive force transmission rod 168 and is rotated counterclockwise, thereby affecting the lower end of the crossbar 164 encounters. The cross staff 164 is then by the belching of the operating unit 162a of the hinged anchor 162 turned counterclockwise. Accordingly, the locking arm is unlocked or released, and the triggering part 163 is rotated by, then the switching mechanism 140 of the 1 trigger it to move to the trip position. Therefore, the moving contact becomes 130 that with the switching mechanism 140 connected, from the fixed contacts 110 and 120 by the movement of the switching mechanism 140 disconnected to be in a tripped state in which the circuit is interrupted.

The molded case circuit breaker trigger mechanism of the related art has a complex construction and utilizes the elastic force of the spring 167 to create a gap between the fixed electromagnet 161 and the hinged anchor 162 maintain. Accordingly, when the molded case circuit breaker is made solid, since the elasticity of the spring 167 is not constant, the gap between the fixed electromagnet 161 and the hinged anchor 162 vary depending on the products, even if the setting selector 166 is rotated by a predetermined angle. A disadvantage is therefore, that it is difficult to produce a reliable cased circuit breaker having a constant current value for initiating the tripping operation.

On the other hand, there is an arrangement for installing two power switches, a molded case circuit breaker (ie, a molded case power switch) for switching and protecting a main circuit (ie, an upper circuit close to a power source) and a molded case a circuit breaker (ie, a molded case sub-circuit breaker) for switching and protecting an undercurrent circuit (ie, a low current circuit separated from the upper circuit to be close to an electric load device) is widely used even in a household power distribution line as well as in industrial applications , In the circuit protection arrangement for installing two circuits, the upper and the lower circuits, assuming that the triggering sensitivities for the molded case circuit breaker having the immediate trip mechanisms have been set to be approximately equal, the cast case circuit breaker of FIG the upper and lower circuits are triggered at the same time or even the molded case circuit breaker is triggered by the upper circuit in proportion to an abnormal current that is much stronger than the rated current.

In view of the priority in the protection of the circuit, it is not desirable that the load device on the lower circuit is preferably protected from the upper circuit in proportion to the abnormal current. Therefore, the molded case circuit breaker installed on the upper circuit must be such that the instantaneous trip could be delayed as compared with the molded case circuit breaker installed in the lower circuit.

It is therefore an object of the present invention to provide an instantaneous molded case circuit breaker tripping mechanism capable of setting a tripping current sensitivity using a simple mechanism and for producing a reliable molded case circuit breaker by providing a constant sensitivity of the tripping current.

It is another object of the present invention to provide an instantaneous molded case circuit breaker mechanism in a molded case circuit breaker installed in an upper circuit capable of retarding an immediate trip.

These objects are achieved according to the invention by an immediate release mechanism according to claim 1. Advantageous embodiments are claimed in the dependent claims.

To achieve these and other advantages in accordance with the purpose of the present invention as embodied and broadly described herein, there is provided an instantaneous release mechanism for a molded case circuit breaker comprising: a fixed solenoid for generating a magnetic circuit Force variable depending on a current flowing in a circuit; a hinged armature disposed to oppose the fixed electromagnet and rotatable to a position in which the molded case circuit breaker is triggered by the magnetic force from the fixed electromagnet when a high current exceeding a normal current over which circuit flows; a spring for elastically biasing the hinged armature in a direction in which it is separated from the fixed electromagnet; a Einstellwählelement having a cam surface, for adjusting a gap between the hinged armature and the fixed electromagnet; and an adjustment rod which is in contact with the cam surface of the adjustment selection member at one end and in contact with the hinged armature at the other end, and is rotatable to change the gap by pushing (pushing) the hinged armature in accordance with the position corresponding to the position Cam surface of the Einstellwählelements is in contact.

In accordance with another purpose of the present invention, the instantaneous trip mechanism for a molded case circuit breaker may further include a delay unit connected to the hinged armature for delaying immediate trip using steady state inertia when a high current that is a normal current passes over the circuit.

The foregoing and other objects, features, aspects and advantages of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings of the present invention.

The accompanying drawings, which are included for further understanding To provide the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention.

In the drawings:

1 FIG. 12 is a cross-sectional view illustrating a structure of a typical molded case circuit breaker; FIG.

2 Fig. 4 is a longitudinal sectional view illustrating an embodiment of a related art immediate release mechanism;

3 Fig. 12 is a perspective view illustrating a construction of an instantaneous release mechanism for a molded case circuit breaker in accordance with the one embodiment of the present invention;

4A and 4B 11 are views of an operating state of principal parts which illustrate operations for setting a tripping current sensitivity of the immediate tripping mechanism for the molded case power switch in accordance with the one embodiment of the present invention; 4A represents a state in which the tripping current sensitivity is set to be high, namely, a state in which the tripping initiating current is set to be low, and the 4B represents a state in which the tripping current sensitivity is set to be low, namely, a state in which the tripping initiating current is set to be strong;

5 Fig. 15 is a perspective view illustrating a construction of an instantaneous molded mechanism for a molded case circuit breaker in accordance with another embodiment of the present invention; and

6A to 6C FIG. 15 is views illustrating an operating state of principal parts of the instantaneous release mechanism for a molded case circuit breaker in accordance with another embodiment of the present invention; 6A FIG. 10 illustrates an operating state of principal parts of the instantaneous release mechanism for a molded case circuit breaker in accordance with another embodiment of the present invention when a normal current is passed through. FIG 6B Fig. 10 illustrates an operating condition in which a hinged armature of the immediate release mechanism for a molded case circuit breaker according to the other embodiment of the present invention is first moved toward a fixed solenoid by an attraction force and then a deceleration weight is stopped by stationary inertia , and the 6C 10 illustrates an operating state in which the deceleration weight of the immediate release mechanism for a molded case circuit breaker in accordance with the other embodiment of the present invention, wherein the deceleration weight has been stopped by the stationary inertia, is rotated by an elastic force of a spring member to hit a crossbar, thereby turning the crossbar.

A description of the present invention will now be given in detail with reference to the accompanying drawings.

A preferred embodiment of an instantaneous release mechanism for a molded case circuit breaker according to the present invention will now be described with reference to the accompanying drawings. The instantaneous trip mechanism for the circuit breaker, which is provided with a molded housing, according to the present invention may refer to a molded case circuit breaker disclosed in U.S. Pat 1 is shown. The typical construction of the in the 1 The molded-case circuit breaker shown is the same as that of the aforementioned prior art, and the explanation thereof will not be repeated accordingly.

First is the 3 12 is a perspective view showing a construction of an instantaneous release mechanism for a molded case circuit breaker in accordance with an embodiment of the present invention.

As it is in the 3 1, a trigger mechanism for a molded case circuit breaker according to an embodiment of the present invention includes a fixed solenoid 261 for generating a magnetic force which is variable depending on a current flowing on a circuit, a hinged armature 262 which is arranged to the fixed electromagnet 261 is opposite, and is rotatable in a position in which the molded case circuit breaker by the magnetic force of the fixed electromagnet 261 is triggered when a strong current that exceeds a normal current flows across the circuit, a spring 267 for elastic pretensioning of the hinged anchor 262 in the direction of a direction in which it is from the fixed or immovable electromagnet 261 is disconnected, a Einstellwählelement 266 which has a cam surface 266a for adjusting a gap G between the hinged armature 262 and the fixed electromagnet 261 and a tuning rod 265 which ends with one 265a with the cam surface 266a of the Einstellwählelements 266 is in contact and with the other end 265b with the hinged anchor 262 is in contact and is rotatable for changing the gap G by pushing (pushing) of the hinged armature 262 according to the position which is in contact with the cam surface 266a of the Einstellwählelements 266 is. The other end 265b of the adjustment rod 265 is formed with a curved shape to work with the hinged anchor 262 to be engaged.

In the 3 denotes a reference numeral 263 a triggering part for triggering a switching mechanism of the molded case circuit breaker to a trip position, a reference numeral 264 denotes a crossbar for locking or releasing the trigger part 263 and a reference numeral 264a denotes a latch portion of the crossbar 264 , Also in the 3 denotes a reference numeral 264b a driving force transmission unit of the cross bar 264 for receiving a rotational force of the hinged armature 262 , and a reference numeral 262a denotes a bent portion which is at an upper end of the hinged armature 262 is provided to an upper end of the spring 267 to support and with the adjusting rod 265 in the other end 265b to be engaged. A height of the bent section 262a is set to the other end 265b of the adjustment rod 265 correspond to. A bending angle is set such that the hinged armature 262 is prevented from being turned clockwise, but toward the fixed electromagnet 261 is moved by an attraction force during a triggering operation to be rotatable counterclockwise.

The instantaneous trip mechanism of the molded case circuit breaker according to the present invention, which is disclosed in U.S.P. 3 may further comprise a unit which is connected to the spring 267 for changing an angle between the spring 267 and the hinged anchor 262 is connected so as to a resilient biasing force of the spring 267 adjust. The unit for changing the angle between the spring 267 and the hinged anchor 262 includes an adjustment screw 268a with one end of the spring 267 is connected, and a support element 268 for supporting the adjusting screw 268a , The support element 268 is here formed as a plate member having a threaded portion which is provided in a through hole through which the adjusting screw 268a passes.

The hinged anchor 262 receives a torque proportional to a tangent value of an angle between the spring 267 and the hinged anchor 262 based on an elastic force of the spring 267 will be changed. That means the hinged anchor 262 receives the moment from a direction in which he is from the fixed electromagnet 261 is separated (for example, a clockwise in the 3 ), namely the direction in which the moment becomes greater when the angle between the spring 267 and the hinged anchor 262 is wider.

For example, when turning the adjusting screw 268a clockwise using a screwdriver, the adjusting screw 268a moved forward through the through hole, in which the threaded portion is provided. Accordingly, the angle between the spring 267 and the hinged anchor 262 wider. The hinged anchor 262 so receives a great moment from a direction in which he is from the fixed electromagnet 261 is separated, namely clockwise in the 3 , Furthermore, when turning the adjusting screw 268a counterclockwise using the screwdriver, the adjusting screw 268a moved back through the through hole, in which the threaded portion is provided. Accordingly, the angle between the spring 267 and the hinged anchor 262 narrower or narrower. The hinged anchor 262 so receives a small moment from a direction in which he is from the fixed electromagnet 261 is separated, namely the counterclockwise in the 3 , Thus, the hinged armature receives 262 the moment from the direction in which he is from the fixed electromagnet 261 is separated, namely clockwise in the 3 , However, the bent portion is at the upper end of the hinged armature 262 is arranged in the other end 265b of the adjustment rod 265 engaged, which prevents the hinged armature from being turned clockwise.

Now, an operation of setting a trigger sensitivity of the immediate release mechanism for the molded case power switch in accordance with the one embodiment of the present invention having such a construction will be described with reference to FIGS 4A and 4B be explained.

The 4A and 4B are views of a state of operation of major parts, which illustrate operations for setting a trip current sensitivity of the immediate release mechanism for the molded case power switch in accordance with the one embodiment of the present invention.

The 4A FIG. 12 illustrates a state in which the trip current sensitivity is set to be high, that is, a state in which the trip-initiating current is set to be low.

The 4B FIG. 14 illustrates a state in which the trip current sensitivity is set to be low, namely, a state in which the trip-initiating current is set to be strong.

First, a screwdriver is inserted into a screwdriver insertion groove (which is not assigned a reference numeral) located on an upper surface of the adjustment dial 266 is formed, and then rotated clockwise. The other end 265a of the adjustment rod 265 will, as in the 4A shown correspondingly contacted with a portion having a large radius in the cam surface 266a of the setting selector 266 and thereby becomes the adjustment rod 265 turned. The hinged anchor 262 therefore overcomes the elastic force of the spring 267 in the 3 is shown, and is rotated counterclockwise. A gap G between the hinged anchor 262 and the fixed electromagnet 261 becomes narrower accordingly. Therefore, because the triggering mechanism has a high triggering sensitivity, the triggering mechanism executes the triggering operation when a current which is relatively slightly stronger than the rated current (eg, a current corresponding to tens of percent higher than the rated current) ), flows on a circuit.

In contrast, the screwdriver is inserted into the screwdriver insertion groove to be rotated in a counterclockwise direction. Then that will be the end 265a of the adjustment rod 265 like in the 4B shown in contact with a portion having a narrow radius in the cam surface 266a of the setting selector 266 having. Accordingly, the adjustment rod 265 by the elastic force of the spring 267 in the 3 is shown rotated in a counterclockwise direction. Therefore, as the hinged armature 262 by the elastic force of the spring 267 in the 3 is rotated in a clockwise direction, the gap G between the hinged armature 262 and the fixed electromagnet 261 get wider. Therefore, since the triggering mechanism has now been given a low sensitivity, the triggering mechanism will perform the trip operation when a considerably larger current than the rated current (eg, a current equal to a multiple of the rated current) flows across the circuit.

A tripping operation of the instantaneous release mechanism for the molded case circuit breaker in accordance with the one embodiment of the present invention will now be described with reference to FIGS 3 described below.

After adjusting the current across the circuit to initiate the triggering operation of the trigger mechanism, namely after setting the trigger sensitivity, e.g. For example, when an abnormal current (eg, a short-circuit current) is generated on the circuit as a large current corresponding to a multiple of the rated current, the fixed solenoid becomes 261 magnetized by the strong current to thereby generate a large magnetic attraction. The magnetic attraction of the solid electromagnet 261 Here is much larger than the elastic force of the spring 267 , Accordingly, the hinged armature 262 rotated in a counterclockwise direction in the drawing. The drive power transmission unit 264b of the cross staff 264 is then clockwise by pushing the hinged armature 262 turned. The latch section of the crossbar 264 is then from the trigger part 263 Approved. Thereafter, the trigger part triggers 263 the switching mechanism 140 from the 1 out, which is thus moved to a release position. Therefore, the moving contact becomes 130 , which with the switching mechanism 140 connected, from the fixed contacts 110 and 120 separated by the driving of the switching mechanism, and thereby the circuit is interrupted, namely, it is in a tripped state.

The 5 FIG. 15 is a perspective view illustrating a construction of an instantaneous release mechanism for a molded case circuit breaker in accordance with another embodiment of the present invention. FIG. An instantaneous release mechanism for a molded case circuit breaker in accordance with the other embodiment of the present invention, which is disclosed in U.S. Pat 5 can be applied to an upper molded case power switch in a case that a main power switch having a molded case close to a power source and a molded case type sub-power switch are doubly installed near to an electric load in a power supply circuit. In other words, the other embodiment of the present invention may be characterized by having a trip delay unit for triggering the The molded case circuit breaker has a delay compared to the molded case sub-circuit breaker. Other constructions and operations in the other embodiment of the present invention are the same as or similar to those in the one embodiment of the present invention mentioned above, and a detailed explanation thereof will not be repeated accordingly.

As it is in the 5 For example, an instantaneous trip mechanism for a molded case circuit breaker in accordance with another embodiment of the present invention includes a fixed solenoid 261 for generating a magnetic force which is changed in accordance with a current flowing through a circuit, a hinged armature 262 which is arranged to the fixed electromagnet 261 and is rotatable to a position in which the molded case power switch is driven by the magnetic force from the fixed solenoid 261 is triggered when a strong current that exceeds a normal current flows across the circuit, a spring 267 for elastic pretensioning of the hinged anchor 262 in the direction of a direction in which he is from the fixed electromagnet 261 is disconnected, a Einstellwählelement 266 which has a cam surface 266a for adjusting a gap G between the hinged armature 262 and the fixed electromagnet 261 and a tuning rod 265 which ends with one 265a with the cam surface 266a of the Einstellwählelements 266 is in contact and with another end 265b with the hinged anchor 262 is in contact and which is rotatable for changing the gap G by pushing (pushing) of the hinged armature 262 according to the cam surface 266a of the Einstellwählelements 266 in contact position. The other end 265b of the adjustment rod 265 is formed in a curved (bent) shape to engage with the hinged armature 262 to be engaged.

In the 5 denotes the reference numeral 263 a trip part for triggering a switching mechanism of the molded case circuit breaker to a trip position, a reference numeral 264 denotes a cross bar for locking or unlocking the release part 263 and a reference numeral 264a denotes a latch portion of the crossbar 264 , Also in the 3 denotes a reference numeral 264b a driving force transmission unit of the cross bar 264 for receiving a rotational force of the hinged armature 264 , and a reference numeral 262a denotes a bent portion which is at an upper end of the hinged armature 262 is arranged to an upper end of the spring 267 to support and around in the other end section 265b to be engaged.

The instantaneous release mechanism for the molded case circuit breaker according to the present invention, which is disclosed in U.S.P. 5 may further comprise a unit associated with the spring 267 is connected to an angle between the spring 267 and the hinged anchor 262 to change, so as to have a resilient biasing force of the spring 267 adjust. The unit for changing the angle between the spring 267 and the hinged anchor 262 includes an adjustment screw 268a , which with one end of the spring 267 is connected, and a support element 268 for supporting the adjusting screw 268a , The support element 268 is here formed as a plate member having a threaded portion which is provided in a through hole through which the adjusting screw 268a passes.

The instantaneous release mechanism for the molded case circuit breaker according to the present invention may further comprise delay units 269 and 269a include, which with the hinged armature 262 and use stationary inertia to delay instantaneous tripping when a strong current exceeding a normal current flows on a circuit.

The delay units 269 and 269a comprise a spring element 269a of which one end is attached to the hinged anchor 262 is attached to load a resilient energy when the hinged armature 262 is rotated, and then release the elastic energy after a certain time delay again; and a weight 269 , which at the other end of the spring element 269a is attached to give a stationary inertial force on the spring element, when the hinged armature is rotated, so as to allow a spring element to charge the elastic energy and release the elastic energy after a predetermined delay, the weight 269 together with the spring element 269a by the elastic energy of the spring element 269a is rotatable.

A passage recess 262b is here at a position corresponding to an upper portion of the hinged armature 262 provided so as to make a rotational movement of the weight 269 to allow. Preferably, the spring element 269a designed as a plate spring, and more particularly as a thin stainless steel plate.

The spring element 269a may instead be formed from the plate spring of a typical coil spring.

The weight 269 may be constructed of an approximately hexahedral weight-bearing member (for which no reference numeral has been assigned) which may be formed of a synthetic resin having a hole for insertion of the other end of the spring member 268a has and is fixed and supported by a fixing unit, such. As a rivet, for firmly supporting the inserted other end of the spring element 269a , and a metallic weight member (not shown) which is firmly supported by being inserted in the weight member. A weight of the metallic weight member may be determined in accordance with a delay time required so that a trip timing of the molded case circuit breaker installed on the main circuit may preferably be later than that of the molded case power switch, which is installed on the subcircuit.

The weight 269 is provided at a position which is a central driving force transmission unit of the three driving force transmission units 264b of the cross staff 264 from the 5 opposite. The weight 269 has a surface which is a center of the driving force transmission units 264b of the cross staff 264 with the corresponding portion of the molded case circuit breaker being formed to trip the molded case circuit breaker, namely, as a portion for hitting the central one of the three drive force transmission rods 264b of the cross staff 264 , With reference to the 6A to 6C On the other hand, on the other hand, an operation of the release with delay of the immediate release mechanism for the molded case power switch in accordance with another embodiment of the present invention will be explained.

The 6A to 6C FIG. 12 is views illustrating an operating state of main parts of the instantaneous release mechanism for a molded case circuit breaker in accordance with the other embodiment of the present invention, wherein FIG 6A FIG. 10 illustrates an operating state of principal parts of the instantaneous release mechanism for a molded case power switch in accordance with another embodiment of the present invention when a normal current is passed through.

As it is in the 6A is as mentioned above with respect to the immediate release mechanism for the molded case circuit breaker according to the one embodiment of the present invention, when a normal current flows on the circuit in which the molded case circuit breaker is installed , the curved section 262a (refer to the 5 ) of the hinged anchor 262 engaged with the other end 265b of the adjustment rod 265 at one of the fixed electromagnet 261 through the spring 267 around a preset gap G spaced position, and accordingly, the hinged armature maintains its position. In this state, the spring element holds 269a its condition in that it is the hinged anchor 262 is approximated, in a state with almost no elastic energy loading.

The 6B FIG. 10 illustrates an operating condition in which a hinged armature of the instantaneous release mechanism for a molded case circuit breaker is attracted toward a fixed solenoid by an attraction force only, and then a deceleration weight is stopped by a stationary inertia in accordance with another embodiment of the present invention becomes.

As it is in the 6B is shown, when a strong current exceeding a normal current flows on the main circuit close to the power supply in which the molded case circuit breaker is installed, the hinged armature 262 by the magnetic attraction of the solid electromagnet 261 towards the solid electromagnet 261 turned, which has been magnetized by the strong current. Thereafter, one end of the spring element 269a , which on the hinged anchor 262 attached in a counterclockwise direction in the 6B is rotated counterclockwise together with the hinged armature 262 turned. However, the other end of the spring element retains 269a temporarily its stationary state by the stationary inertia force, which is generated by the weight which is attached to the other end. Accordingly, the central portion of the spring element becomes 269a bent to load the elastic energy.

The 6C FIG. 10 illustrates an operating state in which the deceleration weight of the immediate release mechanism for a molded case circuit breaker is rotated by an elastic force of a spring member in accordance with another embodiment of the present invention, wherein the deceleration weight has been stopped by the stationary inertia; to hit a crossbar, turning the crossbar.

As it is in the 6C is shown, discharges the spring element after a certain time delay 269a , which has charged the elastic energy by being bent in its middle portion by the stationary inertial force, which is due to the weight 269 is generated, the elastic energy which has been charged. Accordingly, the weight will be 269 in the counterclockwise direction along the other end of the spring element 269a rotated, which is rotated by the elastic energy, which of the spring element 269a unloaded.

The hinged anchor 262 is with a passage recess 262b provided so as to the rotational movement of the weight 269 to allow. The weight 269 which passes through the passage recess 262b has passed, meets the drive power transmission unit 264b of the cross staff 264 to the cross rod 264 to rotate in a clockwise direction in the drawing. Consequently, the molded case circuit breaker having the instantaneous trip mechanism according to the other embodiment of the present invention and installed in the main circuit close to the power source performs the immediate trip operation later than the molded case circuit breaker Installed on the subcircuit near the load. The molded case circuit breaker installed in the subcircuit here refers to the molded case circuit breaker having the typical instantaneous trip mechanism for the instantaneous trip mechanism according to the one embodiment of the present invention, unlike the instantaneous trip mechanism according to the other Embodiment of the present invention.

As described above, the present invention can provide the instantaneous release mechanism for the molded case circuit breaker so as to effectively produce the instantaneous release mechanism for the molded case power switch capable of easily setting the trip current sensitivity using the simple mechanism and for producing a reliable molded case circuit breaker by providing a constant trip current sensitivity to each of the products.

In addition, it is effective in double installing the molded case circuit breaker in the main circuit close to the power source and the sub circuit near the load to obtain the immediate release mechanism for the molded case circuit breaker in the molded case circuit breaker which is installed on the upper circuit (ie, the main circuit) so as to perform the immediate release with more delay as compared with the molded case circuit breaker installed on the lower circuit (ie, the sub-circuit).

Since the present invention may be embodied in various forms without departing from the spirit or essential characteristics thereof, it is to be understood that the above described embodiments are not limited by any detail of the foregoing description unless otherwise indicated, but rather broad within its scope and scope as defined by the appended claims and, therefore, all changes and modifications that fall within the scope of the claims, or equivalents of such limitations, are intended to be encompassed by the appended claims.

Claims (5)

Immediate triggering mechanism for a molded case circuit breaker, comprising: a fixed electromagnet ( 261 ) for generating a magnetic force which is variable depending on a current flowing in a circuit; a hinged anchor ( 262 ), which is arranged to the fixed electromagnet ( 261 ) and is rotatable to a position for triggering the molded case circuit breaker via the magnetic force from the fixed solenoid (FIG. 261 ) when a strong current exceeding a normal current flows in the circuit; a feather ( 267 ) for elastically preloading the hinged armature ( 262 ) in a direction in which it is separated from the fixed electromagnet ( 261 ) is separated; an adjusting selection element ( 266 ), which has a cam surface ( 266a ) for adjusting a gap between the hinged armature ( 262 ) and the fixed electromagnet ( 261 ) having; an adjusting rod ( 265 ), which has one end in contact with the cam surface ( 266a ) of the adjusting selection element ( 266 ) and with the other end in contact with the hinged armature ( 262 ) and which is rotatable to the gap by pressing the hinged armature ( 262 ) according to a position in which it engages with the cam surface ( 266a ) of the adjusting selection element ( 266 ) is in contact, change; Delay units, which with the hinged armature ( 262 ) are connected to an immediate one Delaying tripping when the strong current exceeding the normal current flows in the circuit; where the delay units are a weight ( 269 ), which with the hinged armature ( 262 ) connected is. Mechanism according to claim 1, further comprising a unit which is connected to the spring ( 267 ) is connected to an angle between the spring ( 267 ) and the hinged armature ( 262 ) to change a resilient biasing force of the spring ( 267 ). Mechanism according to claim 2, wherein the unit for changing the angle between the spring ( 267 ) and the hinged armature ( 262 ) comprises: an adjusting screw ( 268a ), which with one end of the spring ( 267 ) connected is; and a support element ( 268 ) for supporting the adjusting screw ( 268a ). Mechanism according to claim 1, wherein the delay units comprise: a spring element ( 269a ), one end of which is attached to the hinged armature ( 262 ) and which charges an elastic energy when the hinged armature ( 262 ) is rotated, and the charged elastic energy releases after a certain time delay; and where the weight ( 269 ), at another end of the spring element ( 269a ) and a stationary inertial force on the spring element ( 269a ), when the flap anchor ( 262 ) is rotated so as to allow the spring element to charge the elastic energy and release the elastic energy after a certain delay, the weight ( 269 ) together with the spring element ( 269a ) by the elastic energy of the spring element ( 269a ) is rotatable. Mechanism according to claim 1 or 4, wherein the weight ( 269 ) is provided with a section for hitting a respective section ( 264b ) of the molded case circuit breaker so as to trip the molded case circuit breaker.

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