Circuit breaker

A circuit breaker characterized by a roller guide member, 1a, provided on the inside wall of an upper part of the case 1. The roller quite member, 1a, has a curved shape designed to form or smooth curved path, 100, in cooperation with the roller receiving indents 5a and 56, so that the roller can be reliably reset in the roller-receiving indents 5a and 5b.

BACKGROUND OF THE INVENTION 
1. Field of the Invention 
The present invention relates generally to a circuit breaker, and 
particularly concerns to a circuit breaker capable of smooth automatic 
resetting action. 
2. Description of the Prior Art 
A typical conventional circuit breaker is shown in FIG. 1 through FIG. 3 
which are sectional side views of the circuit breaker. Therein FIG. 1 
shows an OFF state, FIG. 2 shows an ON state and FIG. 3 shows a tripping 
state which is a state immediately after a tripping and before 
restoration. In these drawings, numeral 1 designates a case made of an 
insulating plastic resin mold, numeral 2 designates a handle which is 
cradably fulcrumed by a pin 101. A torsion spring 3 is wound around the 
pin 101 and one end of the torsion spring 3 is held by a part of the case 
and the other end thereof is held on a part of the handle 2 thereby to 
energize the handle 2 in anticlockwise direction. A U-shaped link 4 is 
rotatably held by its one end in a hole 202 of an internal lever 201 of 
the handle 2 and a roller 9 is rotatably held on the other end of the 
U-shaped link 4. A moving contact arm 5 having a moving contact 12 at its 
lower end is fulcrumed by a pin 6 which is fixed to the case 1 and has a 
roller-receiving-indent 5a, 5b at its top part. An engaging lever 7 having 
an engaging part 7a at its upper end and a pushing seat 7b at its upper 
side part is fulcrumed also by the pin 6, and the engaging lever 7 is 
energized by a torsion spring 8 in anticlockwise direction. Thereby, the 
engaging part 7a catches the roller 9 in the states other than an instant 
immediately after a tripping. A pin 11 fixed on the moving contact arm is 
pulled by a tension spring 14 which is fixed by its other end to a pin 13 
mounted on the case 1. A fixed contact 15 is fixed on a part of the case 
1, in a manner to face the moving contact 12 so as to touch the latter 
when the moving contact arm 5 is rotated anticlockwise by a clockwise 
rotation of the handle 2 and the leftward motion of the roller 9 due to a 
toggle motion of a toggle link system consisting of the internal lever 201 
and the U-shaped link 4. A solenoid coil 17 being wound around a bobbin 25 
and having a plunger 23 therein is connected between a terminal 19 and the 
fixed contact 15. The terminal 19 is for connecting to outside conductor 
(not shown) by a wire pressing member 20 and a screw 21. A yoke of the 
solenoid coil 17 is mounted on the case 1. The plunger 23 has a restoring 
spring 24 energizing it to the right direction and also has a rod 26 which 
is for pushing the engaging lever 7 when a very large overcurrent, for 
instance, a shortcircuit current flows. A bimetal 30 which is connected by 
a soft conductor 29 to the moving contact 12 is connected and mounted on a 
fixed contact 31, to which an outer conductor (not shown) is to be 
connected by a wire pressing member 32 and a screw 33. Numeral 34 
designates an adjusting screw for fine adjustment of angle of the bimetal 
30. The middle part of the bimetal 30 is covered by an insulation sheath 
35. A known arc runner 36 is connected by its one end to the fixed 
conductor 31 and its other end is mounted on the base part of the case 1. 
Numeral 38 designates a known side plate made of inorganic substance and 
disposed in parallel direction of running of arc on both sides of the arc 
runner. A known arc extinguish chamber 42 having plural grids 43 disposed 
with predetermined gaps between a pair of side plates 44 is provided next 
to the arc runner 36. 
The operation of the conventional circuit breaker is as follows. In both 
states of the OFF state shown in FIG. 1 and the ON state shown in FIG. 2 
of the circuit breaker, the roller 9 is held by the engaging part 7a of 
the engaging lever 7 and the roller-receiving-indent 5a, 5b of the moving 
contact arm 5, and thereby the U-shaped link 4 is fixed in the positions 
shown in FIG. 1 and FIG. 2, respectively. 
When the handle 2 is rotated from the OFF state of FIG. 1 to ON state of 
FIG. 2, the toggle link system constituted by the internal lever 201 and 
the U-shaped link 4 moves upwards passing a dead point to the state of 
FIG. 2 and the toggle link system is extended thereby. 
Accordingly the moving contact arm 5 is rotated anticlockwise around the 
pin 6, thereby making the moving contact 12 touch the fixed contact 16 as 
shown in FIG. 2. 
On the contrary, when the handle 2 is rotated anticlockwise to the OFF 
state of FIG. 1, the toggle link system moves downwards to the original 
bent-shaped relation shown in FIG. 1, thereby rotating the moving contact 
arm 5 in clockwise direction around the pin 6, and the moving contact 12 
is detached from the fixed contact 16 as shown in FIG. 1. 
When a relatively moderate overcurrent, for instance, an overload current 
arises, the bimetal 30 is heated by its Joule heat due to the overcurrent 
flowing therethrough and is bent towards the moving contact arm 5, and 
hence the pushing seat 7b is pushed clockwise. Accordingly, by the right 
hand displacement of the engaging part 7a, the engagement of the roller 9 
in the roller-receiving-indent 5a, 5b is released. Therefore, the moving 
contact arm 5 is rotated clockwise by the force of the tension spring 14, 
and the moving contact 12 is detached from the fixed contact 16, and a 
tripping state as shown in FIG. 3 is produced. Thereafter, by means of the 
torsion spring 3, the handle 2 is automatically rotated anticlockwise, and 
then the toggle link system restores to the state of FIG. 1 by falling of 
the roller 9 in a gap formed between the roller-receiving-indent 5a, 5b 
and the engaging part 7a. Thus, the state of the circuit breaker is 
restored to the OFF state shown in FIG. 1. In such moderate overcurrent 
case, the tripping and restoration of the circuit breaker proceed in an 
appropriate time delays induced by slow bending and restoring of the 
bimetal 30. 
On the other hand, when a large overcurrent, for instance, by a 
shortcircuit current arises, the coil 17 is excited by the large current 
and the plunger 23 is driven leftwards in a high speed motion overcoming 
the force of the restoring spring 24, and hence the rod 26 strongly pushes 
the engaging lever 7 leftwards thereby driving it clockwise. As a result, 
the engaging part 7a releases the holding of the roller 9 and therefore 
the toggle link system constituted by the internal lever 201 and the 
U-shaped link 4 is released from the roller-receiving-indent 5a, 5b of the 
moving contact arm 5. And thereby, the moving contact arm 5 is rotated 
clockwise by means of the tension spring 14. Accordingly the moving 
contact 12 detaches from the fixed contact 16, thereby making a 
disconnection, and a tripping state as shown in FIG. 3 is produced. 
Thereafter, by meahs of the torsion spring 3, the handle 2 is 
automatically rotated anticlockwise, and then the toggle link system 
restores to the state of FIG. 1 by falling of the roller 9 in a gap formed 
between the roller-receiving-indent 5a, 5b and the engaging part 7a. Thus, 
the state of the circuit breaker is restored to the OFF state shown in 
FIG. 1. This large overcurrent tripping proceeds in a high speed motion. 
The problem of the above-mentioned conventional circuit breaker is that, in 
a resetting action which after the tripping, since the motion of the 
roller 9 is rather free around the engaging part 7a, sometimes the roller 
9 undesirably rides over wrong side of the engaging part 7a and caught by 
the engaging part 7a at the wrong side. Therefore, reliability of 
automatic resetting of the toggle link system is not sufficiently high. 
SUMMARY OF THE INVENTION 
The purpose of the present invention is to provide an improved circuit 
breaker wherein the aforementioned problem of the conventional circuit 
breaker is dissolved such that reliable automatic resetting of the toggle 
link system is always assured, by providing a roller g uide member which 
is for guiding the roller rightly into a resetting position thereby to 
assure automatic smooth resetting. 
The circuit breaker in accordance with the present invention comprises: 
a handle for connection and disconnection of contacts by outside 
controlling thereof and energized by a spring toward its position of 
disconnection, 
a link member which is linked by its one end to a driving part of the 
handle, thereby to form a toggle link system together with the handle, 
a roller rotatably held on the other end of the link member, 
a fixed contact fixed on a part of a case, 
a moving contact arm which has a roller-receiving-indent on one end part 
and a moving contact on the other end part, is cradlably fulcrumed on the 
case and is energized in a direction to make the moving contact touch the 
fixed contact to make the connection, 
an engaging lever which has an engaging part disposed to face the 
roller-receiving-indent to hold the roller and is cradlably fulcrumed on 
the case, 
an overcurrent trip device which is for releasing the engaging of the 
roller by the engaging part when an overcurrent above a predetermined 
value arises, thereby making the moving contact detach from the fixed 
contact to make the disconnection, and 
a roller guide member which is formed in the case to form a roller guiding 
path together with the roller-receiving-indent for smooth guiding of the 
roller during its motion from a tripped position where the roller is apart 
from the roller-receiving-indent to a reset position where the roller is 
resting on the roller-receiving-indent.

DESCRIPTION OF THE PREFERRED EMBODIMENT 
A preferred embodiment in accordance with the present invention is 
described in detail with reference to FIG. 4 through FIG. 6 and FIG. 7 
which are sectional side views of the circuit breaker and a schematic view 
showing the motion of a roller 9, respectively. Therein FIG. 4 shows an 
OFF state, FIG. 5 shows an ON state, FIG. 6 shows a tripping state which 
is a state immediately after a tripping and before restoration, and FIG. 7 
shows a partially enlarged view showing motions of a roller 9 of the 
embodiment. In these drawings, numeral 1 designates a case made of an 
insulating plastic resin mold, which has a handle 2 which is cradlably 
fulcrumed to a part of the case 1 by a pin 101. A torsion spring 3 is 
wound around the pin 101 and one end of the torsion spring 3 is held by a 
part of the case and the other end thereof is held on a part of the handle 
2 thereby eo energize the handle 2 in anticlockwise direction. A U-shaped 
link 4 is rotatably held by its one end in a hole 202 of an internal lever 
201 of the handle 2 and a roller 9 is rotatably held on the other end of 
the U-shaped link 4. A moving contact arm 5 having a moving contact 12 at 
its lower end is fulcrumed by a pin 6 which is fixed to the case 1 and has 
a roller-receiving-indent 5a, 5b at its top part. An engaging lever 7 
having an engaging parts 7a at its upper end and a pushing seat 7b at its 
upper side part is fulcrimed also by the pin 6, and the engaging lever 7 
is energized by a torsion spring 8 in anticlockwise direction. Thereby, 
the engaging part 7a catches the roller 9 in the states other than an 
instant immediately after a tripping. 
The feature in configuration of the present invention is providing of a 
roller guide member 1a in an integral mold configuration to an inside wall 
of an upper part of the case 1. The roller guiding member 1a has a curved 
shape which is designed to form a smooth curved path 100 together with the 
roller-receiving-indent 5a, 5b at the upper end part of the moving contact 
arm 5. The smooth curved path 100 formed between the roller guide member 
1a and the roller-receiving-indent 5a, 5b of the upper part of the moving 
contact arm 5 is designed so that the roller 9 can automatically restore 
from the tripped position shown in FIG. 6 to the OFF state position shown 
in FIG. 1. In order to assure the automatic restoration, the roller 
guiding member has a tapered convex curve part 1b at an entrance part of 
said roller guiding path 100 and a concave downward curve part 1c 
connected to the tapered convex curve part 1b. A pin 11 fixed on the 
moving contact arm is pulled by a tension spring 14 which is fixed by its 
other end to a pin 13 mounted on the case 1. A fixed contact 15 is fixed 
on a part of the case 1, in a manner to face the moving contact 12 so as 
to touch the latter when the moving contact arm 5 is rotated anticlockwise 
by a clockwise rotation of the handle 2 and the leftward motion of the 
roller 9 due to a toggle motion of a toggle link system consisting of the 
internal lever 201 and the U-shaped link 4. A solenoid coil 17 being wound 
around a bobbin 25 and having a plunger 23 therein is connected between a 
terminal 19 and the fixed contact 15. The terminal 19 is for connecting to 
outside conductor (not shown) by a wire pressing member 20 and a screw 21. 
A yoke of the solenoid coil 17 is mounted on the case 1. The plunger 23 
has a restoring spring 24 energizing it to the right direction and also 
has a rod 26 which is for pushing the engaging lever 7 when a very large 
overcurrent, for instance, a shortcircuit current flows. A bimetal 30 
which is connected by a soft conductor 29 to the moving contact 12 is 
connected and mounted on a fixed contact 31, to which an outer conductor 
(not shown) is to be connected by a wire pressing member 32 and a screw 
33. Numeral 34 designates an adjusting screw for fine adjustment of angle 
of the bimetal 30. The middle part of the bimetal 30 is covered by an 
insulation sheath 35. A known arc runner 36 is connected by its one end to 
the fixed conductor 31 and its other end is mounted on the base part of 
the case 1. Numeral 38 designates a known side plate made of inorganic 
substance and disposed in parallel direction of running of arc on both 
sides of the arc runner. A known arc extinguish chamber 42 having plural 
grids 43 disposed with predetermined gaps between a pair of side plates 44 
is provided next to the arc runner 36. 
The operation of the above-mentioned embodiment of the circuit breaker is 
as follows. In both states of the OFF-state shown in FIG. 4 and the ON 
state shown in FIG. 5 of the circuit breaker, the roller 9 is held by the 
engaging part 7a of the engaging lever 7 and the roller-receiving-indent 
5a, 5b of the moving contact arm 5, and thereby the U-shaped link 4 is 
fixed in the positions shown in FIG. 4 and FIG. 5, respectively. 
When the handle 2 is rotated from the OFF state of FIG. 1 to ON state of 
FIG. 5, the toggle link system constituted by the internal lever 201 and 
the U-shaped link 4 moves upwards passing a dead point to the state of 
FIG. 5 and the toggle link system is extended thereby. Accordingly the 
moving contact arm 5 is rotated anticlockwise around the pin 6, thereby 
making the moving contact 12 touch the fixed contact 16 as shown in FIG. 
5. 
On the contrary, when the handle 2 is rotated anticlockwise to the OFF 
state of FIG. 4, the toggle link system moves downwards to the original 
bent-shaped relation shown in FIG. 4, thereby rotating the moving contact 
arm 5 in clockwise direction around the pin 6, and the moving contact 12 
is detached from the fixed contact 16 as shown in FIG. 4. 
When a relatively moderate overcurrent, for instance, an overload current 
arises, the bimetal 30 is heated by its Joule heat due to the overcurrent 
flowing therethrough and is bent towards the moving contact arm 5, and 
hence the pushing seat 7b is pushed clockwise. Accordingly, by the right 
hand displacement of the engaging part 7a, the engagement of the roller 9 
in the roller receiving indent 5a, 5b is released. Therefore, the moving 
contact arm 5 is rotated clockwise by the force of the torsion spring 14, 
and the moving contact 12 is detached from the fixed contact 16, and a 
tripping state as shown in FIG. 6 is produced. Thereafter, by means of the 
torsion spring 3, the handle 2 is automatically rotated anticlockwise, and 
then the toggle link system restores to the state of FIG. 4. In this 
process, roller 9 moves as shown from one dot chain line position in the 
left, through two dots chain line position in the midway position to the 
solid line position in the right of FIG. 7, and the guide member 1a 
certainly and smoothly guides the restoration movement of the roller 9 
through the smooth path 100 to the roller receiving indent 5a, 5b as shown 
in FIG. 7. Therefore the restoration of the roller 9 to the original state 
shown in FIG. 4 and hence the resetting of the roller 9 and the toggle 
link system is always assured. Thus, the state of the circuit breaker is 
resetted to the OFF state shown in FIG. 4. In such moderate overcurrent 
case, the tripping and restoration of the circuit breaker proceed in an 
appropriate time delays induced by slow bending and restoring of the 
bimetal 30. 
On the other hand, when a large overcurrent, for instance, by a 
shortcircuit current arises, the coil 17 is excited by the large current 
and the plunger 23 is driven leftwards in a high speed motion overcoming 
the force of the restoring spring 24, and hence the rod 26 strongly pushes 
the engaging lever 7 leftwards thereby driving it clockwise. As a result, 
the engaging part 7a releases the holding of the roller 9 and therefore 
the toggle link system constituted by the internal lever 201 and the 
U-shaped link 4 is released from the roller receiving indent 5a, 5b of the 
moving contact arm 5. And thereby, the moving contact arm 5 is rotated 
clockwise by means of the tension spring 14. Accordingly the moving 
contact 12 detaches from the fixed contact 16, thereby making a 
disconnection, and a tripping state as shown in FIG. 6 is produced. 
Thereafter, by means of the torsion spring 3, the handle 2 is 
automatically rotated anticlockwise, and then the toggle link system 
restores to the state of FIG. 4. Also in this process, roller 9 moves as 
shown from one dot chain line position in the left, through two dots chain 
line position in the midway position to the solid line position in the 
right of FIG. 7, and the guide member 1a certainly and smoothly guides the 
restoration movement of the roller 9 through the smooth path 100 to the 
roller receiving indent 5a, 5b as shown in FIG. 7. Therefore the 
restoration of the roller 9 to the original state shown in FIG. 4 and 
hence the resetting of the roller and the toggle link system is always 
assured. Thus, the state of the circuit breaker is resetted to the OFF 
state shown in FIG. 4. This large overcurrent tripping proceeds in a high 
speed motion. 
As a result of the provision of the roller guiding member 1a , the certain 
and reliable automatic resetting of the roller 9 and the toggle link 
system after every trippings of the circuit breaker both in moderate 
overcurrent operation and in a large overcurrent operation is assured.