Terminal connecting mechanism for molded case circuit breaker

Abstract

A terminal connecting mechanism for a molded case circuit breaker that does not need a tool for connection or release between a wire and a terminal is disclosed. The terminal connecting mechanism of a molded case circuit breaker comprises a supporter having a through hole portion for allowing passing through of a terminal of the molded case circuit breaker and a terminal seat portion where the terminal, which has passed through the through hole portion, is mounted; a spring of which one end is supported by the supporter; and a lever member being in contact with the other end of the spring, rotataby moving to a position for allowing insertion of a wire to contact the terminal, and pressurizing the wire by means of an elastic force of the spring to maintain a contact state between the wire and the terminal.

Claims

1. A terminal connecting mechanism for a molded case circuit breaker, comprising: a supporter that has a through hole portion for allowing passing through of a terminal of the molded case circuit breaker and a terminal seat portion where the terminal, which has passed through the through hole portion, is mounted; a spring that one end of the spring is supported by the supporter; and a lever member that is in contact with the other end of the spring, rotatable to a position for allowing insertion of a wire to contact the terminal, and pressurizes the wire by means of an elastic force of the spring to maintain a contact state between the wire and the terminal, wherein the lever member has a spring supporting seat portion for supporting the other end of the spring, the supporter has a spring supporting seat portion for supporting one end of the spring, and the spring supporting seat portion of the supporter is located at a height higher than a height of the spring supporting seat portion of the lever member at an assembly state.

2. The terminal connecting mechanism for the molded case circuit breaker according to claim 1, wherein the lever member comprises a manipulation protruding portion formed to be more protruded toward the front than the other front portions of the lever member.

3. The terminal connecting mechanism for the molded case circuit breaker according to claim 1, wherein the lever member comprises a plurality of grooved portions at an upper portion of one surface.

4. The terminal connecting mechanism for the molded case circuit breaker according to claim 1, wherein the lever member comprises a surface having the spring supporting seat portion, which has a first inclined surface of an upper portion and a second inclined surface of a lower portion based on the spring supporting seat portion, and the first inclined surface and the second inclined surface are formed concavely toward the spring supporting seat portion.

5. The terminal connecting mechanism for the molded case circuit breaker according to claim 1, wherein the supporter comprises: the terminal seat portion that provides a mounting space for the terminal and has a bottom portion and both sidewall portions formed to be extended from both sides of the bottom portion at a predetermined height; a vertical wall portion that is formed to be upwardly extended from the rear of the bottom portion and has a spring supporting seat portion for supporting one end of the spring at a predetermined position; and the through hole portion that is provided at the vertical wall portion and allows passing through of the terminal.

6. The terminal connecting mechanism for the molded case circuit breaker according to claim 1, wherein the supporter further comprises a pair of extension protrusions that are provided to be extended from both sidewall portions of the terminal seat portion towards the facing sidewall portions to prevent the lever member from being detached from the supporter.

7. The terminal connecting mechanism for the molded case circuit breaker according to claim 1, wherein the lever member comprises a wire receiving portion that receives a wire on a lower surface and the wire receiving portion is configured with a concave groove portion or “V” type groove portion formed to be concaved upwardly.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

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

(2) In the drawings:

(3) FIG. 1 is an exploded perspective view of a molded case circuit breaker and a terminal connecting mechanism illustrating a configuration of a terminal connecting mechanism of a molded case circuit breaker according to the related art;

(4) FIG. 2 is an exploded perspective view of a terminal connecting mechanism and a molded case circuit breaker according to the preferred embodiment of the present invention;

(5) FIG. 3 is an exploded perspective view of a trip mechanism of a molded case circuit breaker and a terminal connecting mechanism according to the preferred embodiment of the present invention;

(6) FIG. 4 is a perspective view illustrating an assembly state of a terminal connecting mechanism according to the preferred embodiment of the present invention and a switching mechanism of a molded case circuit breaker;

(7) FIG. 5 is an exploded perspective view illustrating a terminal connecting mechanism according to the preferred embodiment of the present invention;

(8) FIG. 6 is a perspective view illustrating an assembly state of a terminal connecting mechanism according to the preferred embodiment of the present invention;

(9) FIG. 7 is a side view illustrating an assembly state of a terminal connecting mechanism according to the preferred embodiment of the present invention; and

(10) FIG. 8 is an operation state view illustrating an operation state during wire connection of a terminal connecting mechanism according to the preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

(11) Advantages and features of the present invention, and implementation methods thereof will be clarified through following embodiments described with reference to the accompanying drawings.

(12) As seen with reference to FIG. 2, a terminal connecting mechanism 30 according to the preferred embodiment of the present invention comprises a supporter 32, a spring 33, and a lever member 31.

(13) As seen with reference to FIG. 2, the terminal connecting mechanisms 30 according to the preferred embodiment of the present invention are provided at both ends in a length direction of a molded case circuit breaker 100 and can be installed at a terminal portion 10 that can be connected with a wire W as a circuit line at an electric power source side or an electric load side.

(14) In FIG. 4, a reference numeral 10A designates a switching mechanism for driving a movable contact arm as well-known, and that comprises a trip spring, a shaft, an upper link, a lower link, a latch, a handle, a lever, etc.

(15) As seen with reference to FIG. 5, the supporter 32 has a through hole portion 32g and terminal seat portions 32f and 32c.

(16) The through hole portion 32g is a portion that allows to pass through a terminal of the molded case circuit breaker, and the terminal seat portions 32f and 32c are portions where the terminals (see reference numeral 21 of FIG. 3), which have passed through the through hole portion are mounted.

(17) In accordance with one preferred aspect of the present invention, as seen with reference to FIG. 5, the supporter 32 comprises the terminal seat portions 32f and 32c, a vertical wall portion 32a, and the through hole portion 32g.

(18) The terminal seat portions 32f and 32c are formed by a bottom portion 32f and both sidewall portions 32c extended at a predetermined height from both sides of the bottom portion 32f, and provides a mounting space of the terminals (see reference numeral 21 of FIG. 3).

(19) In accordance with another preferred aspect of the present invention, as seen with reference to FIG. 5, the supporter 32 has a spring supporting seat portion 32b for supporting one end of the spring 33, and in the assembly state as described with reference to FIG. 7, the spring supporting seat portion 32b of the supporter 32 is arranged to be higher than a spring supporting seat portion 31e of the lever member 31.

(20) Therefore, as the spring 33 is formed to be inclined, it is advantageous that a vertical component force of an elastic force of the spring 33 acting as the lever member 31 is greater than the case that the spring support portion 32b of the supporter 32 is arranged at the same height as that of the spring supporting seat portion 31e of the lever member 31.

(21) This is because that the vertical component force of the elastic force of the spring 33 acting as the lever member 31 is a value obtained by multiplying the elastic force by a cosine 8 when an angle between the vertical wall portion 32a and the spring 33 is 8 based on the vertical wall portion 32a of the supporter 32. This is expressed by the following Equation.
F=F cos θ  [Equation 1]

(22) In this case, f is the vertical component force of the elastic force F, F is the elastic force of the spring 33, and 8 is the angle between the vertical wall portion 32a and the spring 33.

(23) If the spring supporting seat portion 32b of the supporter 32 has the same height as that of the spring supporting seat portion 31e of the lever member 31, since θ is 90°, cos θ becomes 0 (zero), and if θ is an acute angle greater than 0° and smaller than 90°, cos θ becomes a value greater than 0 (zero) and smaller than 1. Therefore, the vertical component force f of the elastic force F of the spring 33 acting as the lever member 31 becomes greater than the case that the spring supporting seat portion 32b of the support member 32 has the same height as that of the spring supporting seat portion 31e of the lever member 32b.

(24) The vertical wall portion 32a is extended from the rear of the bottom portion 32f to the top thereof.

(25) As best shown in FIG. 5, the vertical wall portion 32a has the spring supporting seat portion 32b for supporting one end of the spring 33 at a predetermined position.

(26) The through hole portion 32g is provided at the vertical wall portion 32a and allows passing through of the terminals (see reference numeral 21 of FIG. 3).

(27) Therefore, the through hole portion 32g may be formed to have a clearance wider than a width of the terminal and higher than the height of the terminal to allow passing through of the terminals.

(28) Also, the supporter further comprises a pair of extension protrusions 32d as shown in FIG. 5 to FIG. 6.

(29) The pair of extension protrusions 32d are provided to be extended from both sidewall portions 32c of the terminal seat portion towards the facing sidewall portions 32c to prevent the lever member 31 from being detached from the supporter.

(30) Therefore, even though the elastic force of the spring 33 is applied to the lever member 31 in a direction that the lever member 31 is detached from the supporter 32, since the lever member 31 is stopped by the pair of extension protrusions 32d, the lever member 31 can be prevented from the supporter 32.

(31) As best shown in FIGS. 5 and 6, the supporter 32 may further include a mounting groove portion 32e below both sidewall portions 32c of both sides, wherein the mounting groove portion 32e can be mounted on a guide rail portion 10a provided relatively to be protruded at both insulating partition wall portions of the terminal portion 10 of the molded case circuit breaker 100.

(32) The spring 33 has one end supported by the spring supporting seat portion 32b of the supporter 32 and the other end supported by the spring supporting seat portion 31e of the lever member 31.

(33) In accordance with the preferred embodiment, the spring 33 can be configured with a compressive spring for charging elastic energy when it is compressed.

(34) The lever member 31 is a means for rotatably moving to a position for allowing insertion of the wire W to contact the terminal 21 and pressurizing the wire W by means of the elastic force of the spring 33 to maintain a contact state between the wire W and the terminal 21.

(35) The lever member 31 has the spring supporting seat portion 31e for supporting the other end of the spring as described above with reference to FIG. 5.

(36) As best shown in FIG. 7, the lever member 31 comprises a manipulation protruding portion 31a formed at an upper portion to be more protruded toward the front than other front portions of the lever member 31.

(37) When the wire W is connected to the terminal 21, if a user rotates the lever member 31 counterclockwise as shown in FIG. 8 by pushing the manipulation protruding portion 31a with a finger, the manipulation protruding portion 31a is provided as a manipulation means of the lever member 31 for connecting the wire W to the terminal 21, so as to expose a space into which the wire W can be inserted.

(38) Also, if the user rotates the lever member 31 counterclockwise as shown in FIG. 8 by pushing an embossed portion 31b provided below the manipulation protruding portion 31a with a finger, the manipulation protruding portion 31a can serve as a stopper of a touching portion (see a plurality of grooved portions 31b) of the lever member 31.

(39) As well seen in FIGS. 5 to 8, the lever member 31 comprises a plurality of grooved portions 31b at an upper portion of one surface (a front surface when the surface where the manipulation protruding portion 31a is arranged is the front surface).

(40) The grooved portions 31b can serve to guide a finger of the user to push the corresponding portion (the grooved portions 31b) and prevent a slip from occurring when the user pushes the corresponding portion.

(41) As well seen in FIGS. 5 to 8, a surface (a rear surface when the surface where the manipulation protruding portion 31a is arranged is the front surface) having the spring supporting seat portion 31e in the lever member 31 comprises a first inclined surface 31c of an upper portion and a second inclined surface 31d of a lower portion based on the spring supporting seat portion 31e.

(42) In accordance with the preferred aspect of the present invention, the first inclined surface 31c and the second inclined surface 31d are formed concavely toward the spring supporting seat portion 31e.

(43) The first inclined surface 31c and the second inclined surface 31d can serve to prevent the spring 33 from being detached therefrom by allowing the spring 33 to be located within a space formed by the first inclined surface 31c and the second inclined surface 31d or allowing the spring 33 not to be far away from the first inclined surface 31c and the second inclined surface 31d even though the spring 33 is detached from the spring supporting seat portions 31e and 32b.

(44) Also, the lever member 31 may include a wire receiving portion for receiving the wire on a lower surface in accordance with the embodiment, wherein the wire receiving portion may be provided as a concave groove portion or “V” type groove portion 31f formed to be concaved upwardly.

(45) Meanwhile, an assembly method of the aforementioned terminal connecting mechanism 30 of the molded case circuit breaker according to the preferred embodiment of the present invention will be described with reference to the drawings.

(46) First of all, as seen with reference to FIG. 3, the supporter 32, the spring 33 and the lever member 31, which are previously manufactured, are prepared.

(47) A user or worker mounts the lever member 31 on the terminal seat portions 32f and 32c of the supporter 32.

(48) Then, the user or worker mounts both ends of the spring 33 to be supported by the spring supporting seat portions 32b and 31e of the supporter 32 and the lever member 31 by using a tool such as a pincette or gripping the spring 33 with a finger.

(49) As a result, the assembly of the terminal connecting mechanism 30 is completed.

(50) Next, as seen with reference to FIG. 2, the mounting groove portion 32e of the assembled terminal connecting mechanism 30 is pushed to be fitted onto the guide rail portions 10a provided at a lower portion of the terminal portion 10 of the molded case circuit breaker 100.

(51) At this time, the terminal 21 of the molded case circuit breaker 100 is located on the bottom portion 32f of the terminal seat portions 32f and 32c by passing through the through hole portion 32g of the supporter 32 as can be aware of it with reference to FIG. 8.

(52) The operation of installing the assembled terminal connecting mechanism 30 in the molded case circuit breaker 100 is completed by being performed six times to correspond to a total of 6 corresponding to three electric power source sides and three electric load sides in case of the three-phases molded case circuit breaker.

(53) Also, action of the aforementioned terminal connecting mechanism 30 of the molded case circuit breaker according to the preferred embodiment of the present invention, that is, action when the wire is connected to the terminal or detached from the terminal will be described with reference to FIGS. 7 and 8.

(54) First of all, the connection operation will be described.

(55) The user pushes the manipulation protruding portion 31a or the grooved portions 31b of the lever member 31 of the terminal connecting mechanism 30 by using a finger.

(56) Then, as the lever member 31 is rotated counterclockwise by overcoming the elastic force of the spring 33, a gap is generated between the terminal 21 and the bottom surface of the lever member 31, and the wire W is pushed into the corresponding gap.

(57) Afterwards, if the lever member 31 is released, the vertical component force of the elastic force of the spring 33 is applied to the wire W through the lever member 31.

(58) Since the vertical component force acts as a maintaining force for maintaining a contact state between the wire W and the terminal 21, the state that the wire W is in contact with the terminal 21 is maintained.

(59) Next, the detachment operation will be described.

(60) In the same manner as the connection operation, the user pushes the manipulation protruding portion 31a or the grooved portions 31b of the lever member 31 of the terminal connecting mechanism 30 by using a finger.

(61) Then, as the lever member 31 is rotated counterclockwise by overcoming the elastic force of the spring 33, a frictional area of the lever member 31 downwardly pushing the wire W is minimized.

(62) At this time, if the user pulls the wire W in a direction opposite to the direction of the connection operation, the detachment operation is completed.

(63) As described above, since the terminal connecting mechanism for the molded case circuit breaker according to the present invention comprises a supporter having a terminal seat portion where the terminal, a spring of which one end is supported by the supporter, and a lever member having a spring supporting seat portion for supporting the other end of the spring, rotataby moving to a position for allowing insertion of a wire to contact the terminal, and pressurizing the wire by means of an elastic force of the spring to maintain a contact state between the wire and the terminal, connection and detachment of the wire can be performed by push of the lever member without tool, and the electrical connection state between the wire and the terminal can be maintained by the elastic of the spring.

(64) In the terminal connecting mechanism for the molded case circuit breaker according to the present invention, since the lever member comprises a manipulation protruding portion formed to be more protruded toward the front than the other front portions of the lever member, the user can rotatably move the lever member to the position for allowing insertion of the wire by griping the corresponding manipulation protruding portion and pushing the lever member.

(65) In the terminal connecting mechanism for the molded case circuit breaker according to the present invention, since the supporter has a spring supporting seat portion for supporting one end of the spring and the spring supporting seat portion of the supporter is located at a height higher than that of the spring supporting seat portion of the lever member at an assembly state, the spring is formed to be inclined, whereby it is advantageous that the vertical component force of an elastic force of the spring acting as the lever member is greater than the case that the spring support portion of the supporter is arranged at the same height as that of the spring supporting seat portion of the lever member.

(66) In the terminal connecting mechanism for the molded case circuit breaker according to the present invention, since the lever member comprises a plurality of grooved portions at an upper portion of one surface, the grooved portions may serve to guide a finger of the user to push the corresponding portion and prevent a slip from occurring when the user pushes the corresponding portion.

(67) In the terminal connecting mechanism for the molded case circuit breaker according to the present invention, since the lever member comprises a surface having the spring supporting seat portion, which has a first inclined surface of an upper portion and a second inclined surface of a lower portion based on the spring supporting seat portion, and the first inclined surface and the second inclined surface are formed concavely toward the spring supporting seat portion, the first inclined surface and the second inclined surface can serve to prevent the spring from being detached therefrom by allowing the spring to be located within a space formed by the first inclined surface and the second inclined surface or allowing the spring not to be far away from the first inclined surface and the second inclined surface even though the spring is detached from the spring supporting seat portions.

(68) In the terminal connecting mechanism for the molded case circuit breaker according to the present invention, since the supporter comprises a bottom portion, a terminal seat portion, a vertical wall portion having the spring supporting seat portion, and the through hole portion provided at the vertical wall portion, allowing passing through of the terminal, the terminal can be mounted on the terminal seat portion by passing through the through hole portion, and one end of the spring can be supported by the spring supporting seat portion of the vertical wall portion.

(69) In the terminal connecting mechanism for the molded case circuit breaker according to the present invention, since the supporter further comprises a pair of extension protrusions provided to be extended from both sidewall portions of the terminal seat portion towards the facing other sidewall portions, the lever member can be prevented from being detached from the supporter even though the elastic force of the spring is applied to the lever member.

(70) In the terminal connecting mechanism for the molded case circuit breaker according to the present invention, the lever member comprises a wire receiving portion for receiving a wire on a lower surface and the wire receiving portion is comprised of a concave groove portion or “V” type groove portion formed to be concaved upwardly, insertion of the wire can easily be performed in a state that the lower surface of the lever member is pressurized and the exact insertion position can be obtained.

(71) The foregoing embodiments and advantages are merely exemplary and are not to be considered as limiting the present disclosure. The present teachings can be readily applied to other types of apparatuses. This description is intended to be illustrative, and not to limit the scope of the claims. Many alternatives, modifications, and variations will be apparent to those skilled in the art. The features, structures, methods, and other characteristics of the exemplary embodiments described herein may be combined in various ways to obtain additional and/or alternative exemplary embodiments.

(72) As the present features may be embodied in several forms without departing from the characteristics thereof, it should also be understood that the above-described embodiments are not limited by any of the details of the foregoing description, unless otherwise specified, but rather should be considered broadly within its scope as defined in the appended claims, and therefore all changes and modifications that fall within the metes and bounds of the claims, such metes and bounds are therefore intended to be embraced by the appended claims.