JPH0650905Y2 - Circuit breaker - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial field of application] The present invention is intended to prevent contact welding by an arc generated between both contacts due to a circuit breaker, particularly chattering related to contact pressure.

[Prior Art] A conventional circuit breaker will be described with reference to Figs.
FIG. 4 is a side view of a main part in a contact open state, and FIG. 5 is a side view of a main part in a contact closed state. In FIG. 4, (1) is a contact arm connected to an opening / closing mechanism (not shown), 2)
Is a movable contactor, (3) is a bracket fixed to the movable contactor (2) and pivotally connected to the contact arm (1) by a pin (4), and (5) is a movable contactor (2) (6) is a fixed contact facing the movable contact (2), (7) is a fixed contact fixed to the fixed contact (6), and (8) is a contact arm (1). And a bracket (3), which is a contact pressure spring, and is constituted by a push spring. (9) shows the central axis of rotation when both contacts (5), (7) are opened and closed by the opening / closing mechanism.

Next, the operation will be described. When the contact open state shown in FIG. 4 is changed to the contact closed state shown in FIG. 5, the contact arm (1) rotates about the shaft (9) counterclockwise. Even after the contacts (5) and (7) come into contact with each other, the contact arm (1) rotates to ensure overtravel, but the movable contactor (2) moves through the bracket (3) to the pin (4). ) Is connected to the contact arm (1), so that the pin (4) is rotated in the clockwise direction while maintaining contact with both contacts (5) and (7). As a result, the length of the contact pressure spring (8) held between the contact arm (1) and the bracket (3) is reduced, and contact pressure is generated.

[Problems to be solved by the invention]

Since the conventional circuit breaker is configured as described above,
When both contact points (5) and (7) are completely closed, the contact pressure spring (8) contracts sufficiently to secure contact pressure, but when both contact points (5) and (7) start contact. Since the contact pressure is low, chattering due to impact at the time of contact causes both contacts (5),
In some cases, an arc was generated between (7) and both contacts (5) and (7) were welded. As a countermeasure, both contacts (5),
When the contact pressure at the beginning of contact in (7) is increased, the contact pressure at the time of closing becomes excessive, and there is a problem that the opening and closing mechanism makes it impossible to apply.

The present invention has been made to solve the above-mentioned problems, and the contact arm is divided into two, and a second contact pressure spring is provided between the divided contact arms (A) and (B) and the contact arm ( By providing a first contact pressure spring having a high elastic coefficient between B) and the movable contactor, the contact pressure in the closed state is the same, but the contact pressure at the start of contact between both contacts is increased as compared with the conventional case. Prevents chattering when throwing in,
The purpose is to obtain a circuit breaker capable of preventing contact welding.

[Means for solving problems]

The circuit breaker according to the present invention comprises two types of second elastic members each having a different elastic coefficient as a member for applying a contact pressure to a pair of movable and fixed contacts.
A contact arm (A) having first and second contact pressure springs and having contact arms connected by a crossbar (A)
And a contact arm (B) in which the movement of the contact arm (A) is transmitted by a pin which has the same center of rotation as the contact arm (A) and is movably coupled to the elongated hole of the contact arm (A). The contact arm (B) is provided with a movable contactor, and the first contact pressure spring having a high elastic coefficient is interposed between the movable contactor and the contact arm (B). Both contact arms (A) and (B) so that the contact arm (B) is opened with respect to the contact arm (A).
The second contact pressure spring is interposed between them.

[Action]

In this invention, the contact arm is divided into two parts, and the second part is formed between the divided contact arms (A) and (B).
Since the first contact pressure spring having a high elastic coefficient is provided between the contact arm (B) and the movable contact, the first contact pressure spring is provided between the contact arm (B) and the movable contact. The contact pressure is secured by the contact pressure spring, and the contact pressure can be secured by the second contact pressure spring when the closing of the movable contact is completed, and the contact pressure at the start of contact at the time of closing is increased.

[Example of device]

An embodiment of the present invention will be described below with reference to FIGS. FIG. 1 is a side view of a main part in a contact open state, and FIG. 2 is a side view of a main part in a contact closed state. The same or corresponding parts as those of the conventional device are designated by the same reference numerals and the description thereof will be omitted. In the figure, (8A) is a first contact pressure spring having a strong elastic coefficient. (10) is a second contact pressure spring, which is shown as a torsion spring in this embodiment. (1
Reference numeral 1) is a pin for holding the second contact pressure spring (10), which is held by a hole formed in a contact arm (A) (101) connected to an opening / closing mechanism (not shown).
Reference numeral (102) is a contact arm (B) having a pin (4) for holding the movable contactor (2) and having the same rotation center shaft (9) as the contact arms (A) (101). , Is connected to the contact arm (A) (101) by a pin (13) through an elongated hole (12) formed in the contact arm (A) (101). Second contact pressure spring (1
One end (10a) of (0) is held by the contact arm (A) (101) and the other end (10b) is held by the contact arm (B) (102), and the contact arm (B) (102) is held in the contact open state. Is pushed down counterclockwise.
The contact arm (B) (102) is stably held at the position shown in FIG. 1 by the pin (13) as a stopper below the elongated hole (12) of the contact arm (A) (101). . Before explaining the operation of the circuit breaker according to the present invention, the characteristics of the conventional contact pressure spring (8) and the contact pressure springs (8A), (10) according to the present invention will be described with reference to FIG. The contact pressure springs (8) and (8A) have the same characteristics. The point (a) is a contact pressure spring (8) at the time of contact of the prior art.
And points (c) and (d) show the contact pressures of the contact pressure springs (8A) and (10) according to the present invention when they come into contact with each other. Point (b) shows the contact pressure in the closed contact pressure state after the charging is completed.

The operation of the circuit breaker according to the present invention will be described. From the contact open state shown in FIG. 1 to the contact closed state shown in FIG. 2, the shaft (9) is rotated counterclockwise about the rotation center as in the prior art. When the contacts (5) and (7) come into contact with each other, contact pressure starts to be generated, but as described in FIG. 3, the force of the contact pressure springs (8A) and (10) is (c) point <(d) point. Therefore, the first contact pressure spring (8A) does not contract, that is, the contact arm (10A)
2) does not move, only the second contact pressure spring (10) rotates according to the movement of the contact arm (101), and the contact pressure rises. When the contact arm (101) further rotates, the pin (13) connected to the contact arm (102)
Contacts the upper end of the elongated hole (12) of the contact arm (101) (contact pressure at that time is point (e) in FIG. 3). Further, when the contact arm (101) rotates, the contact arm (102) passes through the pin (13) according to the movement.
Is rotated, the contact pressure is influenced by the first contact pressure spring (8A), and the contact pressure increases from point (d) to point (b). . That is, as the change of the contact pressure, according to FIG. 3, (c) → (e) → (d) → (b)
It becomes the route of. In the conventional technique, (a) → (b) was used, but by using the second contact pressure spring (10), (a) → (b)
It becomes possible to change the change of (d) from (c) to (e) to (d), and the contact pressure at the contact start of the contacts (5) and (7) is increased from the point (a) to the point (c). It became possible to do.

[Effect of device]

As described above, according to this invention, the contact arm has two
Split and this split contact arm (A),
To increase the initial value of the contact pressure by providing the second contact pressure spring between (B) and the first contact pressure spring having a strong elastic coefficient between the contact arm (B) and the movable contact. Therefore, it is possible to prevent chattering at the time of closing and to prevent welding of the contacts due to an arc generated during chattering.

[Brief description of drawings]

FIG. 1 is a side view of an essential part of a contact open state showing an embodiment of the present invention, FIG. 2 is a side view of an essential part of the contact closed state, FIG. 3 is a characteristic view of a contact pressure spring, and FIG. FIG. 5 is a side view of an essential part of the circuit breaker in a contact open state, and FIG. 5 is a side view of an essential part in a contact closed state. In the figure, (101) is the contact arms (A), (10
2) is a contact arm (B), (2) is a movable contactor,
(5) is a movable contact, (7) is a fixed contact, (8A) is a first contact pressure spring, and (10) is a second contact pressure spring. In the drawings, the same reference numerals indicate the same or corresponding parts.

Claims (1)

[Scope of utility model registration request] 1. A double contact having a movable contact connected to an opening / closing mechanism by a contact arm, a movable contact fixed to the movable contact, and a fixed contact facing the movable contact. In a circuit breaker which requires contact pressure between the contact and the contact, the two types of first and second contact pressure springs having different elastic coefficients are provided as members for applying contact pressure to the pair of movable / fixed contacts. The contact arm (A) is connected to the arm by a cross bar, and the contact arm (A) has a center of rotation which is the same as that of the contact arm (A) and is movably connected to an elongated hole of the contact arm (A). A) is divided into a contact arm (B) to which the movement is transmitted, and the movable arm and the contact arm (B) are provided with the movable contactor. ) Between the contact arms (A) and (B) such that the first contact pressure spring having a high elastic coefficient is interposed between the contact arms (A) and (B) so that the contact arm (B) opens with respect to the contact arm (A). The second contact pressure spring is interposed between
The contact pressure is secured by the first contact pressure spring at the start of contact between the two contacts when the movable contact is closed, and the contact pressure is secured by the second contact spring when the contact of the movable contact is completed. A circuit breaker characterized in that