Title of Invention	A TERMINAL CONNECTION DEVICE
Abstract	ABSTRACT OF DISCLOSURE A terminal connection device comprising~:"~a first terminal; a terminal contact member composed of a plurality of contact pieces, each contact piece having a first contact surface and a second contact surface, the plurality of contact pieces being arranged on an outer circumference of the first terminal so that the first contact surface and the first terminal can be contacted with each other; a guide plate located between the first contact surface and the second contact surface, recesses being formed on the guide plate at regular intervals in the outer circumferential direction; and a pushing means for pushing the terminal contact member from the outside of the terminal contact member, in that contact pieces are arranged in the recesses formed on the guide plate, the first terminal and the second terminal are electrically connected with each other when the second terminal is inserted into the terminal contact member so that the second contact surface and the second terminal can be contacted with each other, and a protrusion is formed on the side of the contact piece.

Title of Invention

A TERMINAL CONNECTION DEVICE

Abstract

ABSTRACT OF DISCLOSURE A terminal connection device comprising~:"~a first terminal; a terminal contact member composed of a plurality of contact pieces, each contact piece having a first contact surface and a second contact surface, the plurality of contact pieces being arranged on an outer circumference of the first terminal so that the first contact surface and the first terminal can be contacted with each other; a guide plate located between the first contact surface and the second contact surface, recesses being formed on the guide plate at regular intervals in the outer circumferential direction; and a pushing means for pushing the terminal contact member from the outside of the terminal contact member, in that contact pieces are arranged in the recesses formed on the guide plate, the first terminal and the second terminal are electrically connected with each other when the second terminal is inserted into the terminal contact member so that the second contact surface and the second terminal can be contacted with each other, and a protrusion is formed on the side of the contact piece.

Full Text	TERMINAL CONNECTION DEVICE BACKGROUND OF THE INVEHTION The present invention relates to a terminal connection device for connecting a primary terminal of a switch or a circuit breaker with a terminal of a fixed frame to be connected with it. Fig. 7 is a side view showing a conventional terminal connection device, and Fig. 8 is a view (a front view of the terminal connection device) of the terminal connection device shown in Fig. 7 from which the second terminal is pulled out, wherein the view is taken in the direction of arrow A. Figs. 9A and 9B are showing a structure of the conventional terminal connecting device shown in Fig. 7. Fig. 9A is a side view of a contact piece of the terminal connecting device described later, and Fig. 9B is a front view of the contact piece of the terminal connecting device. That is, Fig. 9B is a view of the contact piece of the terminal connecting device shown in Fig. 9A, wherein the view is taken in the direction of arrow B. In the drawings, reference numeral 1 is a first terminal, the shape of which is, for example, a circular rod-shape. The first terminal is, for example, a terminal of a circuit breaker or a switch. Reference symbole "a" is a central axis of the first terminal. Reference numeral 2 is a contact piece arranged outside the first terminal 1. The contact piece 2 is an electrically conductive member. When a plurality of contact pieces 2 are arranged along the outer circumferential direction on the side of the first terminal being formed into a ring-shape (in this case, a circle), the plurality of contact pieces 2 compose a terminal contact member 21. Reference symbol Rl is a size of an oiiter diameter of the terminal contact member 21, Reference numeral 3 Is a compression spring which is a pushing means for pushing the contact pieces 2. The compression spring 3 is arranged on the outer circumference of the terminal contact member 21 and presses the contact piece 2 to the first terminal 1 by giving a force from the outside of the contact piece 2 to the inside. Each compression spring 3 is a ring-shaped spring. When the compression springs 3 are arranged in the recesses 2e to 2g formed in the contact piece 2, a force directed from the outside of the contact piece 2 to the inside can be given to the contact piece 2, that is, a force directed to the central axis "a" of the first terminal 1 can be given to the contact piece 2. Reference numeral 4 is a first guide plate, and reference numeral 5 is a second guide plate. Reference numeral 6 is a second terminal, the shape of which is formed into a circular rod-shape. The second terminal 6 is, for example, a terminal of a fixing frame [not shown in the drawing) to be connected with a circuit breaker. Reference numeral 8 is a screw which is a fixing means for fixing the first terminal 1 to the first guide plate 4. " When the second terminal 6 is inserted into a space inside the terminal contact member 21 so that the contact piece 2 can be contacted with the second terminal 6, it is possible to attain a condition in which an electrical current flows between the first terminal 1 and the .second terminal 6. Therefore, the first terminal 1 and the second terminal 6 are electrically connected with each other. When the first terminal i and the second terminal 6 are electrically disconnected from each other, the second terminal 6 is pulled out from the terminal contact member 21. At this time, since the contact piece 2 is fixed to the first terminal 1, the contact piece 2 is left on the outer circumference of the first terminal 1. Therefore, the second contact surface 2b become hollow. In the case of replacing parts arranged on the side of the first terminal 1, after the first terminal 1 and the second terminal 2 have been electrically disconnected from each other, the predetermined parts are replaced. Fig. 10 is a view showing a structure of the first guide plate 4. As shown in Tig. 10, the first guide plate 4 is composed in such a manner that a plurality of recesses 4a are formed at regular intervals on the outer circumference of a circular plate. A plurality of contact pieces 2 are arranged on the outer circumference of the first terminal 1 being formed into a circle when the recesses 2c of the contact pieces 2 are put in the recesses 4a of the first guide plate 4. Side walls 4b of the recesses 4a prevent the contact pieces 2 from being displaced in the transverse direction or in the outer circumferential direction of the first terminal. When a screw 8 is put in a screw hole 4c formed on the first guide plate 4, the first guide plate 4 is fixed to the first terminal 1. Fig. 11 is a view showing a structure of the second guide plate 5. As shown in Fig. 11, the second guide plate 5 is an annular member composed in such a manner that a plurality of recesses 5a are formed at regular intervals on the outer circumference of the annular member. A plurality of contact pieces 2 are arranged on the outer circumference of the second terminal 6 being formed into a circle when the recesses 2d of the contact pieces 2 are put in the recesses 5a of the second guide plate 5. Side walls 5b of the recesses 5a prevent the contact pieces 2 from being displaced in the transverse direction. Inner diameter R of the second guide plate 5 is determined to be larger than the diameter of the second terminal 6 so that the second terminal 6 can be pulled out. When the second terminal 6 is pulled out from the terminal contact member 21, a bottom surface of the recess 5a of the second guide plate 5 supports the contact piece 2, and a tip end portion of the contact piece 2 on the contact surface side 2b is prevented from being displaced toward the central axis "a" of the first terminal 1. Fig. 12 is a schematic illustration showing a distribution of forces given to the contact piece 2. In Fig. 12, RA is a pushing force given from the first contact surface 2a to the first terminal 1, RB is a pushing force given from the second contact surface 2b to the second terminal 6, and P is a pushing force given by the compression spring 3. When the compression springs 3 are arranged at regular intervals as shown in the drawing, pushing force RA given between the first terminal 1 and the contact piece 2 becomes equal to pushing force RB given between the second terminal 6 and the contact piece 2. In order to prevent the tip end portion of the contact piece 2 on the second contact surface 2b side from being displaced toward the central axis "a" of the first terminal 1 when the second terminal 6 is pulled out and in order to support the tip end portion of the contact piece 2 on Che second contact surface 2b side, the first guide plate 4 and the second guide plate 5 are used in the conventional terminal connection device. However, in the above conventional terminal connection device, there is caused a problem that the number of parts composing the terminal "connection device is increased. Only when the two guide plates are integrated into one, an amount of displacement of the tip end portion of the contact piece 2 on the second contact surface 2b side toward the central axis of the first terminal is increased too much after the second terminal 6 has been pulled out. Therefore, it becomes impossible to inert the second terminal 6 again. SUMMARY OF THE IHVENTIQN The present invention has been accomplished to solve the above problems. It is an object of the present invention to provide a terminal connection device In which the tip end portion of the contact piece on the second contact surface side can be prevented from being displaced toward the central axis of the first terminal, even if only one guide plate is provided. The present invention is to provide a terminal connection device comprising: a first terminal; a terminal contact member composed of a plurality of contact pieces, each contact piece having a first contact surface and a second contact surface, the plurality of contact pieces being arranged on an outer circumference of the first terminal so that the first contact surface and the first terminal can be contacted with each other; a guide plate located between the first contact surface and the second contact surface. recesses being formed on the guide plate at regular intervals in the outer circumferential direction,"and a pushing means for pushing the terminal contact member from the outside of the terminal contact member, wherein the contact pieces are arranged in the recesses formed on the guide plate, the first terminal and the second terminal are electrically connected with each other when the second terminal is inserted into the terminal contact member so that the second contact surface and the second terminal can be contacted with each other, and a protrusion is formed on the side of the contact piece. In the terminal connection device according to the present invention, the pushing means is composed of a plurality of ring-shaped springs, and the plurality of ring-shaped springs are arranged outside the terminal contact member so that a pushing force given from the first contact surface of the contact piece can be higher than a pushing force given from the second contact surface of the contact piece. In the terminal connection device according to the present invention, the protrusion is formed on the side of the contact piece close to the second contact surface of the contact piece. In the terminal connection device according to the present invention, the first contact surface of the contact piece is curved so that a surface contact can be attained between the first terminal and the contact piece in the outer circumferential direction of the first terminal. In the terminal connection device according to the present invention, the second contact surface of the contact piece is curved so that a surface contact can be attained between the second terminal and the contact piece in the outer circumferential direction of the second terminal. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a partially cross-sectional view of the side of the terminal connection device of Embodiment 1; Fig. 2 is a front view of the terminal connection device of Embodiment I; Fig. 3 is a view showing the structure of the contact piece of the terminal connection device of Embodiment 1; Fig. 4 is a partially enlarged view of the contact piece of the terminal connection device of Embodiment 1; Fig. 5 is a view showing the structure of the guide plate of the terminal connection device of Embodiment 1; Fig. 6 is a schematic illustration showing a distribution of forces given to the contact piece of the terminal connection device of Ertiiodiment 1; Fig. 7 is a partially cross-sectional view of the side of the conventional terminal connection device; Fig. 8 is a front view of the conventional terminal connection device; Fig. 9 is a view showing the structure of the contact piece of the conventional terminal connection device; Fig. 10 is a view showing the structure of the first guide of the conventional terminal connection device; Fig. 11 is a view showing the structure of the second guide of the conventional terminal connection device; and Fig. 12 is a schematic illustration showing a distribution of forces given to the contact piece of the conventional terminal connection device. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiment 1 Fig. 1 is a partially cross-sectional view of the side of the terminal connection device of Embodiment .1 of the invention. Fig. 2 is a view (a front view of the terminal connection device) of the terminal connection device shown in Fig. 1 from which the second terminal is pulled out, wherein the view is taken in the direction of arrow C. Fig. 3A is a side view of the contact piece, and Fig. 3B is a front view taken in the direction of arrow B in Fig. 3A. Fig. 4 is an enlarged view of the contact surface of the contact piece. Fig. 5 is a front view of the guide plate. Like reference characters are used to indicate like parts in the views of the terminal connection device of the embodiment and the conventional terminal connection device. In the drawings, reference numeral 20 is a contact piece arranged outside the first terminal 1. The contact piece 20 is a conductive member. A terminal contact member 201 is composed of a plurality of contact pieces 20 which are arranged in a ring-shape (in this case, a circular shape) on the side of the first terminal 1 in the "outer circumferential direction. The contact piece 20 includes: a first contact surface 2Qa coming into contact with the first terminal 1; a second contact surface 20b coming into contact with the second terminal 6; recesses 20h, 20i, 20j, 20k: for preventing a positional displacement of the compression spring 3 which is a pushing means; a recess 20c in which the guide plate 40 is put; and a protrusion 20m formed on the side of the contact piece 20 close to the second contact surface 20b. A section of the contact piece 20 is formed into a substantial sector. R2 is an outer diameter of the terminal contact member 201, and r is an inner diameter of the terminal contact member 201. When the second terminal 6 is pulled out, a tip end portion of each contact piece 20 on the second contact surface 20b side is inclined toward the central axis "a" of the first terminal 1 so that the contact pieces, which are adjacent to each other, are contacted with each other via the protrusion 20m. The protrusion 20m prevents the tip end portion of the contact piece 20 on the second contact surface 20b side from inclining excessively. That is, the protrusion 20m functions as a stopper which restricts an excessively large inclination of the tip end portion of the contact piece 20 on the second contact surface 20b side. Therefore, even if only one guide plate 40 is provided, the inner diameter "r" of the contact pieces 20, which are arranged in a circle, is not reduced so small. Due to the foregoing, the second terminal 6 can be easily inserted again. The recess 20h is formed at a position closer to the recess 20c than the recess 20k. A distance from the recess 20i to the recess 20c is substantially the same as a distance from the recess 20j to the recess 20c. Due to the above arrangement, when the compression springs 3 are arranged in the recesses 20h to 20k, a pushing force given to the first terminal 1 from the first contact surface 20a becomes higher than a pushing force given to the second terminal 6 from the second contact surface 20b. Therefore, when the second terminal 6 is pulled out, there is no possibility that the first contact surface 20a is separated from the first terminal 1. Fig. 4 is a partially enlarged view of the contact piece 20. To be in more detail. Fig. 4 is a partially enlarged view of a portion H of the contact piece 20 shown in Fig. 3A. The second contact surface 20b is, for example, a curved surface which comes into surface contact with a surface of the second terminal 6. In this embodiment, the second terminal 6 is formed into a circular rod-shape. Therefore, the second contact surface 20b is curved. Since a curved surface is formed on the second contact surface 20b as shown in Fig. 4, the second contact surface 20b comes into surface contact with the surface of the second terminal 6. Due to the foregoing, a contact area of the second contact surface 20b with the second terminal 6 is increased. Accordingly, the contact resistance between them can be decreased, and a limit value of electric current flowing between the second contact surface 20b and the second terminal 6 can be increased. As a result, quality of the terminal contact device can be enhanced. In the same manner as that described above, when the first contact surface 20a is curved so that it can come into surface contact with a surface of the first terminal 1, the same effect can be provided because the first terminal 1 is formed into a circular rod-shape. In the case where a cross-sectional area of the contact piece 20, the cross-section of which is a sector, is increased, it is possible to increase the cross-sectional area of the contact piece 20 by increasing a length of the cross-section in the transverse direction, that is, by increasing a length of the cross-section shown in Fig. 3B in the transverse direction on the surface of the drawing. As described above, it is possible to increase the contact area of the second contact surface 20b coming into contact with the second terminal 6. Therefore, it is"'"possible to reduce an electric current density of the electric current flowing in the contact pieces without increasing the outer diameter of the terminal contact member 201, which is represented by R2 in Fig. 1, compared with the outer diameter of the conventional terminal contact member 21, which is represented by Rl in Fig. 7. Fig. 5 is a view showing a structure of the guide plate 40. As shown in Fig. 5, the guide plate 40 is composed in such a manner that a plurality of recesses 40a are formed at regular intervals on the outer circumference of a circular plate. A plurality of contact pieces 20 are arranged on the outer circumference of the first terminal 1 being formed into a ring-shape (in this case, a circle) when the recesses 20c of the contact pieces 20 are put in the recesses 40a of the guide plate 40. Side walls 40b of the recesses 40a prevent the contact pieces 20 from being displaced in the transverse direction. When a screw 8 is put in a screw hole 40c formed on the guide plate 40, the guide plate 40 is fixed to the first terminal 1. Fig. 6 is a schematic illustration showing a distribution of forces given to the contact piece 20. In the drawing, P is a pushing force given by each compression spring 3 to the contact piece 2 when the compression springs 3 are respectively arranged in the hollows 20h to 20k. RA is a pushing force given from the first contact surface to the first terminal 1, and RB is a pushing force given from the second contact surface to the second terminal 6. The first contact surface 20a is located at a position perpendicularly below a middle point of the hollows 20h and 20i. Due to the foregoing, an intensity of the pushing force given from the first contact surface 20a to the first terminal 1 becomes substantially twice as high as an intensity of force P. Due to the foregoing, pushing force RA given from the first contact surface 20a to the first terminal 1 is increased, so that a contact resistance between the first terminal 1 and the first contact surface 20a can be reduced. Therefore, a limit value of electric current flowing between the first terminal 1 and the first contact surface 20a can be increased. As a result, quality of the terminal contact device can be enhanced. On the other hand, the second contact surface 20b is located perpendicularly below the recess 20k, and the recess 20j is located at a position closer to the recess 20c than the second contact surface 20b. Due to the above arrangement, an intensity of the pushing force given from the second contact suriace zub to the second terminal 6 becomes substantially equal to an intensity of force P. Due to the foregoing, the second terminal 6 can be pulled out by the substantially same intensity of force as that of the force conventionally given to the second terminal 6, that is, the operation property of the terminal connection device of the invention is substantially the same as that of the conventional terminal connection device. Due to the above arrangement, pushing force RA given from the first contact surface 20a to the first terminal 1 becomes higher than pushing force RB given from the second contact surface 20b to the second terminal 6. Therefore, when the second terminal 6 is pulled out, there is no possibility that the contact piece 2 is inclined to the side of the first contact surface 20a. Concerning the method of adjusting pushing forces RA and RB, pushing force RA given from the first contact surface 20a to the first terminal 1 and pushing force RB given from the second contact surface 20b to the second terminal 6 can be adjusted by adjusting the positions of the hollows 20h to 20k for fixing the positions of the compression springs 3 and also adjusting the positions of the first contact surface 20a and the second contact surface 20b. However, the structure is not limited to the above specific embodiment. As long as the contact piece 20 is pushed in such a manner that pushing force RA can be higher than pushing force RB, any" pushing means may be adopted. In Embodiment 1, a circuit breaker is taken as an example to be arranged on the first terminal 1 side. However, even in the case where the device on the first terminal 1 side is a switch, of course, the same effect can be provided. In Embodiment 1, the protrusion 20m is provided only on one side of the contact piece 20, however, the same effect can be provided when the protrusions 20m are provided on both sides'of the contact piece 20. In Embodiment 1, the protrusion 20m is provided on the side of the contact piece 20 close to the second contact surface 20b, however, the same effect can be provided when a tapered protrusion 20m is provided on the side of the contact piece 20. According to the terminal connection device of the present invention, there is provided a protrusion on the side of the contact piece. Therefore, the protrusion functions as a stopper for preventing the tip end portion of the contact piece on the second contact surface side from inclining excessively toward the central axis of the first terminal. Accordingly, the inner diameter of the terminal contact member, in which a plurality of contact pieces are arranged in a ring-shape, is not reduced so small. Due to the foregoing, the second terminal 6 can be easily inserted into the terminal contact member again. According to the terminal connection device of the present invention, the guide plate is arranged between the first contact surface and the second contact surface of the contact piece, and force is given to the contact pieces by a pushing means including a plurality of ring-shaped springs which are arranged outside the contact pieces so that a pushing force given from the first contact surface to the first terminal can be higher than a pushing force given from the second contact surface to the second terminal. Accordingly, when the second terminal is pulled out, the contact pieces are not inclined to the first contact surface side. According to the terminal connection device of the present invention, the protrusion is provided on the side of the contact piece close to the second contact surface. Therefore, it is possible to easily eliminate a positional slippage in a portion close to the end of the second contact surface of the contact piece. According to the terminal connection device of the present invention, the first contact surface of the contact piece is formed into a curved surface capable of coming into surface contact with the surface of the first terminal. Therefore, the contact area of the surface of the first terminal with the first contact surface can be increased, and the contact resistance in this contact area is decreased. Due to the foregoing, a limit value of ..ii^ cxcv-L.j.j.i_cix current flowing between the first terminal and the first contact surface can be increased. Therefore, quality of the terminal connection device can be enhanced. According to the terminal connection device of the present invention, the second contact surface of the contact piece is formed into a curved surface capable of coming into surface contact with the surface of the second terminal. Therefore, the contact area of the surface of the second terminal with the second contact surface can be increased, and the contact resistance in this contact area is decreased. Due to the foregoing, a limit value of the electrical current flowing between the second terminal and the second contact surface can be increased. Therefore, quality of the terminal connection device can be enhanced. WE CLAIM: 1. A terminal connection device comprising: a first terminal; a terminal contact member composed of a plurality of contact pieces, each contact piece having a first contact surface and a second contact surface, the plurality of contact pieces being arranged on an outer circumference of the first terminal so that the first contact surface and the first terminal can be contacted with each other; a guide plate located between the first contact surface and the second contact surface, recesses being formed on the guide plate at regular intervals in the outer circumferential direction; and a pushing means for pushing the terminal contact member from the outside of the terminal contact member, wherein the contact pieces are arranged in the recesses formed on the guide plate, the first terminal and the second terminal are electrically connected with each other when the second terminal is inserted into the terminal contact member so that the second contact surface and the second terminal can be contacted with each other, and a protrusion is formed on the side of the contact piece. 2. The terminal connection device as claimed in claim 1, wherein the pushing means is composed of a plurality of ring-shaped springs, and the plurality of ring-shaped springs are arranged outside the terminal contact member so that a pushing force given from the first contact surface of the contact piece can be higher than a pushing force given from the second contact surface of the contact piece. 3. The terminal connection device as claimed in claim I, wherein the protrusion is formed on the side of the contact piece close to the second contact surface of the contact piece. 4. The terminal connection device as claimed in claim I, wherein the first contact surface of the contact piece is curved so that a surface contact can be attained between the first terminal and the contact piece in the outer circumferential direction of the first terminal. 5. The terminal connection device as claimed in claim 1, wherein the second contact surface of the contact piece is curved so that a surface contact can be attained between the second terminal and the contact piece in the outer circumferential direction of the second terminal. 6. A terminal connection device substantially as herein described with reference to figures 1 to 6 of the accompanying drawings.

Full Text

TERMINAL CONNECTION DEVICE
BACKGROUND OF THE INVEHTION The present invention relates to a terminal connection device for connecting a primary terminal of a switch or a circuit breaker with a terminal of a fixed frame to be connected with it.
Fig. 7 is a side view showing a conventional terminal connection device, and Fig. 8 is a view (a front view of the terminal connection device) of the terminal connection device shown in Fig. 7 from which the second terminal is pulled out, wherein the view is taken in the direction of arrow A.
Figs. 9A and 9B are showing a structure of the conventional terminal connecting device shown in Fig. 7. Fig. 9A is a side view of a contact piece of the terminal connecting device described later, and Fig. 9B is a front view of the contact piece of the terminal connecting device. That is, Fig. 9B is a view of the contact piece of the terminal connecting device shown in Fig. 9A, wherein the view is taken in the direction of arrow B.
In the drawings, reference numeral 1 is a first terminal, the shape of which is, for example, a circular rod-shape. The first terminal is, for example, a terminal of a circuit breaker or a switch. Reference symbole "a" is a central axis of the first terminal. Reference numeral 2 is a contact piece arranged outside the first terminal 1.

The contact piece 2 is an electrically conductive member. When a plurality of contact pieces 2 are arranged along the outer circumferential direction on the side of the first terminal being formed into a ring-shape (in this case, a circle), the plurality of contact pieces 2 compose a terminal contact member 21.
Reference symbol Rl is a size of an oiiter diameter of the terminal contact member 21, Reference numeral 3 Is a compression spring which is a pushing means for pushing the contact pieces 2. The compression spring 3 is arranged on the outer circumference of the terminal contact member 21 and presses the contact piece 2 to the first terminal 1 by giving a force from the outside of the contact piece 2 to the inside. Each compression spring 3 is a ring-shaped spring. When the compression springs 3 are arranged in the recesses 2e to 2g formed in the contact piece 2, a force directed from the outside of the contact piece 2 to the inside can be given to the contact piece 2, that is, a force directed to the central axis "a" of the first terminal 1 can be given to the contact piece 2.
Reference numeral 4 is a first guide plate, and reference numeral 5 is a second guide plate. Reference numeral 6 is a second terminal, the shape of which is formed into a circular rod-shape. The second terminal 6 is, for example, a terminal of a fixing frame [not shown in the drawing) to be connected with a circuit breaker. Reference numeral 8 is a screw which

is a fixing means for fixing the first terminal 1 to the first
guide plate 4. "
When the second terminal 6 is inserted into a space inside the terminal contact member 21 so that the contact piece 2 can be contacted with the second terminal 6, it is possible to attain a condition in which an electrical current flows between the first terminal 1 and the .second terminal 6. Therefore, the first terminal 1 and the second terminal 6 are electrically connected with each other.
When the first terminal i and the second terminal 6 are electrically disconnected from each other, the second terminal 6 is pulled out from the terminal contact member 21. At this time, since the contact piece 2 is fixed to the first terminal 1, the contact piece 2 is left on the outer circumference of the first terminal 1. Therefore, the second contact surface 2b become hollow.
In the case of replacing parts arranged on the side of the first terminal 1, after the first terminal 1 and the second terminal 2 have been electrically disconnected from each other, the predetermined parts are replaced.
Fig. 10 is a view showing a structure of the first guide plate 4.
As shown in Tig. 10, the first guide plate 4 is composed in such a manner that a plurality of recesses 4a are formed at regular intervals on the outer circumference of a circular plate.

A plurality of contact pieces 2 are arranged on the outer circumference of the first terminal 1 being formed into a circle when the recesses 2c of the contact pieces 2 are put in the recesses 4a of the first guide plate 4.
Side walls 4b of the recesses 4a prevent the contact pieces 2 from being displaced in the transverse direction or in the outer circumferential direction of the first terminal. When a screw 8 is put in a screw hole 4c formed on the first guide plate 4, the first guide plate 4 is fixed to the first terminal 1.
Fig. 11 is a view showing a structure of the second guide plate 5.
As shown in Fig. 11, the second guide plate 5 is an annular member composed in such a manner that a plurality of recesses 5a are formed at regular intervals on the outer circumference of the annular member.
A plurality of contact pieces 2 are arranged on the outer circumference of the second terminal 6 being formed into a circle when the recesses 2d of the contact pieces 2 are put in the recesses 5a of the second guide plate 5.
Side walls 5b of the recesses 5a prevent the contact pieces 2 from being displaced in the transverse direction.
Inner diameter R of the second guide plate 5 is determined to be larger than the diameter of the second terminal 6 so that the second terminal 6 can be pulled out.

When the second terminal 6 is pulled out from the terminal contact member 21, a bottom surface of the recess 5a of the second guide plate 5 supports the contact piece 2, and a tip end portion of the contact piece 2 on the contact surface side 2b is prevented from being displaced toward the central axis "a" of the first terminal 1.
Fig. 12 is a schematic illustration showing a distribution of forces given to the contact piece 2.
In Fig. 12, RA is a pushing force given from the first contact surface 2a to the first terminal 1, RB is a pushing force given from the second contact surface 2b to the second terminal 6, and P is a pushing force given by the compression spring 3.
When the compression springs 3 are arranged at regular intervals as shown in the drawing, pushing force RA given between the first terminal 1 and the contact piece 2 becomes equal to pushing force RB given between the second terminal 6 and the contact piece 2.
In order to prevent the tip end portion of the contact piece 2 on the second contact surface 2b side from being displaced toward the central axis "a" of the first terminal 1 when the second terminal 6 is pulled out and in order to support the tip end portion of the contact piece 2 on Che second contact surface 2b side, the first guide plate 4 and the second guide plate 5 are used in the conventional terminal connection device. However, in the above conventional

terminal connection device, there is caused a problem that the number of parts composing the terminal "connection device is increased.
Only when the two guide plates are integrated into one, an amount of displacement of the tip end portion of the contact piece 2 on the second contact surface 2b side toward the central axis of the first terminal is increased too much after the second terminal 6 has been pulled out. Therefore, it becomes impossible to inert the second terminal 6 again.
SUMMARY OF THE IHVENTIQN The present invention has been accomplished to solve the above problems. It is an object of the present invention to provide a terminal connection device In which the tip end portion of the contact piece on the second contact surface side can be prevented from being displaced toward the central axis of the first terminal, even if only one guide plate is provided.
The present invention is to provide a terminal connection device comprising: a first terminal; a terminal contact member composed of a plurality of contact pieces, each contact piece having a first contact surface and a second contact surface, the plurality of contact pieces being arranged on an outer circumference of the first terminal so that the first contact surface and the first terminal can be contacted with each other; a guide plate located between the first contact surface and the second contact surface.

recesses being formed on the guide plate at regular intervals in the outer circumferential direction,"and a pushing means for pushing the terminal contact member from the outside of the terminal contact member, wherein the contact pieces are arranged in the recesses formed on the guide plate, the first terminal and the second terminal are electrically connected with each other when the second terminal is inserted into the terminal contact member so that the second contact surface and the second terminal can be contacted with each other, and a protrusion is formed on the side of the contact piece.
In the terminal connection device according to the present invention, the pushing means is composed of a plurality of ring-shaped springs, and the plurality of ring-shaped springs are arranged outside the terminal contact member so that a pushing force given from the first contact surface of the contact piece can be higher than a pushing force given from the second contact surface of the contact piece.
In the terminal connection device according to the present invention, the protrusion is formed on the side of the contact piece close to the second contact surface of the contact piece.
In the terminal connection device according to the present invention, the first contact surface of the contact piece is curved so that a surface contact can be attained between the first terminal and the contact piece in the outer circumferential direction of the first terminal.

In the terminal connection device according to the present invention, the second contact surface of the contact piece is curved so that a surface contact can be attained between the second terminal and the contact piece in the outer circumferential direction of the second terminal. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a partially cross-sectional view of the side of the terminal connection device of Embodiment 1;
Fig. 2 is a front view of the terminal connection device of Embodiment I;
Fig. 3 is a view showing the structure of the contact piece of the terminal connection device of Embodiment 1;
Fig. 4 is a partially enlarged view of the contact piece of the terminal connection device of Embodiment 1;
Fig. 5 is a view showing the structure of the guide plate of the terminal connection device of Embodiment 1; Fig. 6 is a schematic illustration showing a distribution of forces given to the contact piece of the terminal connection device of Ertiiodiment 1;
Fig. 7 is a partially cross-sectional view of the side of the conventional terminal connection device;
Fig. 8 is a front view of the conventional terminal connection device;
Fig. 9 is a view showing the structure of the contact piece of the conventional terminal connection device;

Fig. 10 is a view showing the structure of the first guide of the conventional terminal connection device;
Fig. 11 is a view showing the structure of the second guide of the conventional terminal connection device; and
Fig. 12 is a schematic illustration showing a distribution of forces given to the contact piece of the conventional terminal connection device.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
Embodiment 1
Fig. 1 is a partially cross-sectional view of the side of the terminal connection device of Embodiment .1 of the invention. Fig. 2 is a view (a front view of the terminal connection device) of the terminal connection device shown in Fig. 1 from which the second terminal is pulled out, wherein the view is taken in the direction of arrow C.
Fig. 3A is a side view of the contact piece, and Fig. 3B is a front view taken in the direction of arrow B in Fig. 3A. Fig. 4 is an enlarged view of the contact surface of the contact piece. Fig. 5 is a front view of the guide plate. Like reference characters are used to indicate like parts in the views of the terminal connection device of the embodiment and the conventional terminal connection device.
In the drawings, reference numeral 20 is a contact piece arranged outside the first terminal 1. The contact piece 20 is a conductive member. A terminal contact member 201 is composed of a plurality of contact pieces 20 which are

arranged in a ring-shape (in this case, a circular shape) on the side of the first terminal 1 in the "outer circumferential direction.
The contact piece 20 includes: a first contact surface 2Qa coming into contact with the first terminal 1; a second contact surface 20b coming into contact with the second terminal 6; recesses 20h, 20i, 20j, 20k: for preventing a positional displacement of the compression spring 3 which is a pushing means; a recess 20c in which the guide plate 40 is put; and a protrusion 20m formed on the side of the contact piece 20 close to the second contact surface 20b. A section of the contact piece 20 is formed into a substantial sector. R2 is an outer diameter of the terminal contact member 201, and r is an inner diameter of the terminal contact member 201.
When the second terminal 6 is pulled out, a tip end portion of each contact piece 20 on the second contact surface 20b side is inclined toward the central axis "a" of the first terminal 1 so that the contact pieces, which are adjacent to each other, are contacted with each other via the protrusion 20m.
The protrusion 20m prevents the tip end portion of the contact piece 20 on the second contact surface 20b side from inclining excessively.
That is, the protrusion 20m functions as a stopper which restricts an excessively large inclination of the tip end

portion of the contact piece 20 on the second contact surface 20b side. Therefore, even if only one guide plate 40 is provided, the inner diameter "r" of the contact pieces 20, which are arranged in a circle, is not reduced so small. Due to the foregoing, the second terminal 6 can be easily inserted again.
The recess 20h is formed at a position closer to the recess 20c than the recess 20k.
A distance from the recess 20i to the recess 20c is substantially the same as a distance from the recess 20j to the recess 20c.
Due to the above arrangement, when the compression springs 3 are arranged in the recesses 20h to 20k, a pushing force given to the first terminal 1 from the first contact surface 20a becomes higher than a pushing force given to the second terminal 6 from the second contact surface 20b. Therefore, when the second terminal 6 is pulled out, there is no possibility that the first contact surface 20a is separated from the first terminal 1.
Fig. 4 is a partially enlarged view of the contact piece 20. To be in more detail. Fig. 4 is a partially enlarged view of a portion H of the contact piece 20 shown in Fig. 3A.
The second contact surface 20b is, for example, a curved surface which comes into surface contact with a surface of the second terminal 6. In this embodiment, the second

terminal 6 is formed into a circular rod-shape. Therefore, the second contact surface 20b is curved.
Since a curved surface is formed on the second contact surface 20b as shown in Fig. 4, the second contact surface 20b comes into surface contact with the surface of the second terminal 6.
Due to the foregoing, a contact area of the second contact surface 20b with the second terminal 6 is increased. Accordingly, the contact resistance between them can be decreased, and a limit value of electric current flowing between the second contact surface 20b and the second terminal 6 can be increased. As a result, quality of the terminal contact device can be enhanced.
In the same manner as that described above, when the first contact surface 20a is curved so that it can come into surface contact with a surface of the first terminal 1, the same effect can be provided because the first terminal 1 is formed into a circular rod-shape.
In the case where a cross-sectional area of the contact piece 20, the cross-section of which is a sector, is increased, it is possible to increase the cross-sectional area of the contact piece 20 by increasing a length of the cross-section in the transverse direction, that is, by increasing a length of the cross-section shown in Fig. 3B in the transverse direction on the surface of the drawing. As described above, it is possible to increase the contact area

of the second contact surface 20b coming into contact with the second terminal 6. Therefore, it is"'"possible to reduce an electric current density of the electric current flowing in the contact pieces without increasing the outer diameter of the terminal contact member 201, which is represented by R2 in Fig. 1, compared with the outer diameter of the conventional terminal contact member 21, which is represented by Rl in Fig. 7.
Fig. 5 is a view showing a structure of the guide plate 40.
As shown in Fig. 5, the guide plate 40 is composed in such a manner that a plurality of recesses 40a are formed at regular intervals on the outer circumference of a circular plate.
A plurality of contact pieces 20 are arranged on the outer circumference of the first terminal 1 being formed into a ring-shape (in this case, a circle) when the recesses 20c of the contact pieces 20 are put in the recesses 40a of the guide plate 40.
Side walls 40b of the recesses 40a prevent the contact pieces 20 from being displaced in the transverse direction. When a screw 8 is put in a screw hole 40c formed on the guide plate 40, the guide plate 40 is fixed to the first terminal 1.
Fig. 6 is a schematic illustration showing a distribution of forces given to the contact piece 20.

In the drawing, P is a pushing force given by each compression spring 3 to the contact piece 2 when the compression springs 3 are respectively arranged in the hollows 20h to 20k.
RA is a pushing force given from the first contact surface to the first terminal 1, and RB is a pushing force given from the second contact surface to the second terminal 6.
The first contact surface 20a is located at a position perpendicularly below a middle point of the hollows 20h and 20i. Due to the foregoing, an intensity of the pushing force given from the first contact surface 20a to the first terminal 1 becomes substantially twice as high as an intensity of force P.
Due to the foregoing, pushing force RA given from the first contact surface 20a to the first terminal 1 is increased, so that a contact resistance between the first terminal 1 and the first contact surface 20a can be reduced. Therefore, a limit value of electric current flowing between the first terminal 1 and the first contact surface 20a can be increased. As a result, quality of the terminal contact device can be enhanced.
On the other hand, the second contact surface 20b is located perpendicularly below the recess 20k, and the recess 20j is located at a position closer to the recess 20c than the second contact surface 20b.

Due to the above arrangement, an intensity of the pushing force given from the second contact suriace zub to the second terminal 6 becomes substantially equal to an intensity of force P.
Due to the foregoing, the second terminal 6 can be pulled out by the substantially same intensity of force as that of the force conventionally given to the second terminal 6, that is, the operation property of the terminal connection device of the invention is substantially the same as that of the conventional terminal connection device.
Due to the above arrangement, pushing force RA given from the first contact surface 20a to the first terminal 1 becomes higher than pushing force RB given from the second contact surface 20b to the second terminal 6. Therefore, when the second terminal 6 is pulled out, there is no possibility that the contact piece 2 is inclined to the side of the first contact surface 20a.
Concerning the method of adjusting pushing forces RA and RB, pushing force RA given from the first contact surface 20a to the first terminal 1 and pushing force RB given from the second contact surface 20b to the second terminal 6 can be adjusted by adjusting the positions of the hollows 20h to 20k for fixing the positions of the compression springs 3 and also adjusting the positions of the first contact surface 20a and the second contact surface 20b. However, the structure is not limited to the above specific embodiment. As long as the

contact piece 20 is pushed in such a manner that pushing force RA can be higher than pushing force RB, any" pushing means may be adopted.
In Embodiment 1, a circuit breaker is taken as an example to be arranged on the first terminal 1 side. However, even in the case where the device on the first terminal 1 side is a switch, of course, the same effect can be provided.
In Embodiment 1, the protrusion 20m is provided only on one side of the contact piece 20, however, the same effect can be provided when the protrusions 20m are provided on both sides'of the contact piece 20.
In Embodiment 1, the protrusion 20m is provided on the side of the contact piece 20 close to the second contact surface 20b, however, the same effect can be provided when a tapered protrusion 20m is provided on the side of the contact piece 20.
According to the terminal connection device of the present invention, there is provided a protrusion on the side of the contact piece. Therefore, the protrusion functions as a stopper for preventing the tip end portion of the contact piece on the second contact surface side from inclining excessively toward the central axis of the first terminal. Accordingly, the inner diameter of the terminal contact member, in which a plurality of contact pieces are arranged in a ring-shape, is not reduced so small. Due to the

foregoing, the second terminal 6 can be easily inserted into the terminal contact member again.
According to the terminal connection device of the present invention, the guide plate is arranged between the first contact surface and the second contact surface of the contact piece, and force is given to the contact pieces by a pushing means including a plurality of ring-shaped springs which are arranged outside the contact pieces so that a pushing force given from the first contact surface to the first terminal can be higher than a pushing force given from the second contact surface to the second terminal. Accordingly, when the second terminal is pulled out, the contact pieces are not inclined to the first contact surface side.
According to the terminal connection device of the present invention, the protrusion is provided on the side of the contact piece close to the second contact surface. Therefore, it is possible to easily eliminate a positional slippage in a portion close to the end of the second contact surface of the contact piece.
According to the terminal connection device of the present invention, the first contact surface of the contact piece is formed into a curved surface capable of coming into surface contact with the surface of the first terminal. Therefore, the contact area of the surface of the first terminal with the first contact surface can be increased, and

the contact resistance in this contact area is decreased. Due to the foregoing, a limit value of ..ii^ cxcv-L.j.j.i_cix current flowing between the first terminal and the first contact surface can be increased. Therefore, quality of the terminal connection device can be enhanced.
According to the terminal connection device of the present invention, the second contact surface of the contact piece is formed into a curved surface capable of coming into surface contact with the surface of the second terminal. Therefore, the contact area of the surface of the second terminal with the second contact surface can be increased, and the contact resistance in this contact area is decreased. Due to the foregoing, a limit value of the electrical current flowing between the second terminal and the second contact surface can be increased. Therefore, quality of the terminal connection device can be enhanced.

WE CLAIM:
1. A terminal connection device comprising: a first terminal; a terminal contact member composed of a plurality of contact pieces, each contact piece having a first contact surface and a second contact surface, the plurality of contact pieces being arranged on an outer circumference of the first terminal so that the first contact surface and the first terminal can be contacted with each other; a guide plate located between the first contact surface and the second contact surface, recesses being formed on the guide plate at regular intervals in the outer circumferential direction; and a pushing means for pushing the terminal contact member from the outside of the terminal contact member, wherein the contact pieces are arranged in the recesses formed on the guide plate, the first terminal and the second terminal are electrically connected with each other when the second terminal is inserted into the terminal contact member so that the second contact surface and the second terminal can be contacted with each other, and a protrusion is formed on the side of the contact piece.
2. The terminal connection device as claimed in claim 1, wherein the pushing means is composed of a plurality of ring-shaped springs, and the plurality of ring-shaped springs are arranged outside the terminal contact member so that a pushing force given from the first contact surface of the contact piece can be higher than a pushing force given from the second contact surface of the contact piece.
3. The terminal connection device as claimed in claim I, wherein the protrusion is formed on the side of the contact piece close to the second contact surface of the contact piece.

4. The terminal connection device as claimed in claim I, wherein the first contact surface of the contact piece is curved so that a surface contact can be attained between the first terminal and the contact piece in the outer circumferential direction of the first terminal.
5. The terminal connection device as claimed in claim 1, wherein the second contact surface of the contact piece is curved so that a surface contact can be attained between the second terminal and the contact piece in the outer circumferential direction of the second terminal.
6. A terminal connection device substantially as herein described with reference to
figures 1 to 6 of the accompanying drawings.

Documents:

1534-mas-1998 abstract.pdf

1534-mas-1998 claims.pdf

1534-mas-1998 correspondence-others.pdf

1534-mas-1998 correspondence-po.pdf

1534-mas-1998 description (complete).pdf

1534-mas-1998 drawings.pdf

1534-mas-1998 form-19.pdf

1534-mas-1998 form-2.pdf

1534-mas-1998 form-4.pdf

1534-mas-1998 form-6.pdf

1534-mas-1998 others.pdf

1534-mas-1998 petition.pdf

« Previous Patent

Next Patent »

Patent Number

195423

Indian Patent Application Number

1534/MAS/1998

PG Journal Number

05/2007

Publication Date

02-Feb-2007

Grant Date

21-Aug-2006

Date of Filing

09-Jul-1998

Name of Patentee

M/S. MITSUBISHI DENKI KABUSHIKI KAISHA

Applicant Address

2-3 MARUNOUCHI 2-CHOME,CHIYODA-KU,TOKYO 100-8310

Inventors:

#	Inventor's Name	Inventor's Address
1	YOSHIHIRO OOKAWA	C/O MITSUBISHI DENKI KABUSHIKI KAISHA, 2-3, MARUNOUCHI 2-CHOME, CHIYODA-KU, TOKYO 100-8310
2	YOSHINORI UCHIDA	C/O MITSUBISHI DENKI KABUSHIKI KAISHA, 2-3, MARUNOUCHI 2-CHOME, CHIYODA-KU, TOKYO 100-8310
3	COICHI SHICHIDA	C/O MITSUBISHI DENKI KABUSHIKI KAISHA, 2-3, MARUNOUCHI 2-CHOME, CHIYODA-KU, TOKYO 100-8310

PCT International Classification Number

H01R13/08

PCT International Application Number

N/A

PCT International Filing date

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	9-186632	1997-07-11	Japan