FR2951865B1 - POWER SOURCE CIRCUIT BREAKER - Google Patents

Abstract

This circuit breaker is waterproof and low in number of components, comprises a housing (3) receiving a fuse element (2). One end of terminals (5) is connected to the fuse element and the other extends out of the housing. A housing (7) has a bottom wall portion (71) supporting circuit terminals (6) connected to the terminals (5), and a tubular wall portion (72), the housing being assembled within the portion tubular wall (72). The cover (4) covering an opening of the housing has an inner tubular portion (42), an outer tubular portion (43) receiving the portion (72) of an inner face thereof, and a hood portion (44). connecting the portion (42) to the portion (43) and covering an end face of the tubular wall portion (72). A liner (10) is arranged between the tubular portion (72) and the inner tubular portion (42) of the lid (4).

Description

POWER SOURCE CIRCUIT BREAKER

The present invention relates to a power source cutout and, more particularly, to a power source cutout (service plug) which cuts a power source circuit and interrupts the power supply. .

The prior art will first be described.

For example, on an electric vehicle, a capacity of a power source, that is to say, a battery, is higher compared, for example, with that of a gasoline-powered vehicle. Therefore, during an electrical vehicle electrical system maintenance operation, a power source circuit breaker (service plug) is used to cut a power source circuit for the purpose of providing power to the vehicle. worker safety. A conventional power source circuit breaker of this type is shown in Fig. 5 in Fig. 8B as a power source cut-out 101 (see, for example, the application publication Japanese Patent No. 2001-76593).

As shown, the power source circuit breaker 101 has a fuse element 102 which melts when an excessive current flows, a rectangular housing (first housing) 103 receiving the fuse element, a cover 104 covering an opening of the housing 103, a pair of terminals 105 having one end connected to the fuse element 102 and the other end extending out of the housing 103, and a housing (second housing) 107 containing a pair of circuit terminals 106, the terminals circuit 106 to be respectively connected to both ends of an open power source circuit.

As shown in FIG. 7, the housing 103 has a bottom wall portion 103a receiving the fuse element 102, a tubular wall portion 103b extending perpendicularly from the bottom wall portion 103a to a cover 104, and a tubular wall portion 103c extending from the lower wall portion 103a to the housing 107. The lid 104 has an upper wall portion 104a covering the opening of the housing 103 and a tubular wall portion 104b extending perpendicularly from the upper wall portion 104a to the housing 103 and coupled to the interior of the tubular portion 103b of the housing 103.

The housing 107 has a bottom wall portion 107a containing the pair of circuit terminals 106, a tubular outer tubular wall portion 107b extending perpendicularly from the lower wall portion 107a toward the housing 103, wherein the tubular wall 103c of the housing 103 is coupled within the outer tubular wall portion 107b, a tubular inner tubular wall portion 107c extending from the lower wall portion 107a to the housing 103 and received at the inside of the tubular portion 103c of the housing 103. In addition, as shown in Fig. 5, a lever 108 is rotatably attached to an outer surface of the housing 103. By rotating the lever 108, the The housing 103 moves relative to the housing 107 from a coupling position, in which the housing 103 is coupled within the outer tubular wall portion 107b of the housing 107. towards a separation position in which the housing is positioned towards the outside of the housing 107.

According to the power source cutout 101, when the housing 103 is placed in the coupling position in which the housing 103 is coupled within the housing 107 by rotating the lever 108, the pair of terminals 105 and the pair of terminals 106 are respectively connected to each other. Thus, the terminals of the pair of circuit terminals 106 are electrically coupled to each other via the pair of terminals 105 and fuse element 102, thereby closing the power source circuit ( establishing it). When the housing 103 is placed in the separation position in which the housing 103 is positioned outside the housing 107 by rotating the lever 108, a connection between the terminals 105 and the circuit terminals 106 is broken, thereby opening the power source circuit (cutting it). The invention will be summarized below starting with the discussion of the technical problem.

For the power source circuit breaker 101 described above, the provided lip gaskets 109, 110 are provided to provide a watertight function on the power source circuit breaker. 101. As shown in Fig. 8A and Fig. 8B, the respective lip liners 109, 110 are arranged at two locations having a location between the lid 104 and the housing 103 and a location between the housing 103 and the housing 107. Lip seal 109, as shown in Fig. 8A, has a ring-like shape and is arranged between the tubular portion 104b of the cover 104 and the tubular portion 103b of the housing 103. The lip seal 110, like this 8B, has an annular-like shape and is arranged between the tubular portion 103c of the housing 103 and the inner tubular wall portion 107d of the housing 107. A ring-type liner support 111 is agen in order to maintain the lip seal 110 in order to prevent movement of the lip seal 110.

Therefore, the conventional power source cutout 101 described above requires two lip gaskets 109, 110 placed between the cover 104 and the housing 103 as well as between the housing 103 and the housing 107 to provide sealing function. Thus, there is a problem of increasing the number of components. In addition, the conventional power source circuit breaker 101 requires the liner carrier 111 to limit the movement of the lip seals 109, 110 for the purpose of providing the water-tight function of the housing 107. This also causes an increase in the number of components. In addition, since there is no provision for a cover portion covering housing 107, as shown in FIG. 8B, water can thus enter a space indicated by "S" in FIG. between the outer tubular wall portion 107b of the housing 107 and the tubular wall portion 103c of the housing 103. Therefore, there is also a problem that water can enter through the space indicated by "S" and s'. accumulate in the casing 107, causing a reduction in watertight performance.

The present invention is intended to address these problems. Thus, an object of the present invention is to create a power source circuit breaker that improves the water-tightness properties and reduces the number of components.

The solution to the problem will then be presented. In order to solve the problems described above and to achieve the purpose described above, according to the present invention, there is created a power source circuit breaker having a fuse element which melts when excessive current passes through; a first housing receiving the fuse element; a cover covering an opening of the first housing; a pair of terminals, one end of each terminal being connected to the fuse element and the other end of each terminal extending out of the first housing; a second housing having a lower wall portion supporting a pair of circuit terminals, the pair of circuit terminals being arranged to be respectively connected to the pair of terminals; and a tubular wall portion extending perpendicularly from the bottom wall portion, wherein the first housing is assembled within the tubular wall portion, wherein the power source cutout comprises: the lid having a tube-shaped inner tubular portion received at an inner face of the tubular wall portion of the second housing, an outer tube-shaped tubular portion receiving the tubular wall portion of the second housing at a face an inner portion thereof, and a hood portion connecting the inner tubular wall portion to the outer tubular wall portion and covering an end face of the tubular wall portion of the second housing; and a liner arranged between the tubular wall portion of the second housing and the inner tubular wall portion of the lid.

In addition, according to the present invention, the first housing described above further comprises a support portion supporting the liner so that the liner is interposed between the support portion and the hood portion.

In addition, according to the present invention, the first housing further includes a groove receiving an end portion of the inner tubular wall portion of the lid.

The advantageous effects of the invention will then be described.

According to the first aspect of the present invention, the hood portion covers a space between the tubular portion of the first housing and the tubular portion of the second housing, thereby preventing water from entering the space. As a result, the watertightness can be improved. In addition, by arranging the outer tubular wall portion on the cover, the first housing can be received in a space between the second housing and the cover. Thus, the circuit breaker can be rendered watertight simply by arranging a gasket between the cover and the second housing, thereby reducing the number of components.

Further, according to the present invention, since the first housing includes the support portion supporting the liner, it is not necessary to create a separately prepared liner support. Therefore, the number of components can be reduced.

In addition, according to the present invention, the lid may be mounted on the first housing such that the end portion of the inner tubular wall portion of the lid is received in the groove. Therefore, the cover can be easily mounted on the first housing.

A brief description of the drawings is given below.

Fig. 1 is a perspective view showing an embodiment of a power source cut-out according to the present invention; Figure 2 is a top view of the power source cutout shown in Figure 1; Fig. 3 is a cross-sectional view taken along the line A-A shown in Fig. 2; Fig. 4 is an enlarged view of a portion indicated by "B" in Fig. 3; Fig. 5 is a perspective view showing an example of a conventional power source circuit breaker; Fig. 6 is a top view showing the conventional power cut-out shown in Fig. 5; Fig. 7 is a cross-sectional view taken along a line C-C shown in Fig. 6; Fig. 8A is an enlarged view of a portion indicated by "D" in Fig. 7; and Figure 8B is an enlarged view of a portion indicated by "E" in Figure 7. Next, the preferred embodiments will be described in detail. A power source cutout (also referred to as a service plug) according to an exemplary embodiment of the present invention is explained below with reference to Fig. 1 to Fig. 4. A source cut-out 1 according to this embodiment is mounted on a power source circuit delivering energy from a battery of an electric vehicle to electrical charges. The power source cutout 1 opens (breaks) and closes (establishes) the power source circuit as needed.

As shown in FIG. 1 to FIG. 4, the power source cut-off 1 comprises a fuse element 2 which melts when an excessive current flows, a housing (first housing) 3 receiving the fuse element 2, a cover 4 covering an opening of the housing 3, a pair of terminals 5 each arranged such that a first end thereof is connected to the fuse element 2 and the other end thereof extends out housing 3, and a housing (second housing) 7 supporting a pair of circuit terminals 6 respectively connected to both ends of the power source circuit. The fuse element 2, as shown in FIG. 3, has a pair of fastening tabs 21 extending from the fuse element 2 and connecting the respective terminals 5 to each other. The fastening lugs 21 comprise a pin hole. Thus, the first end of the terminals 5 is coupled to the fuse element 2 by passing a pin 8 through the pin hole of the fastening tabs 21 and then forcing a tapered end of the pin 8 into a hole assembly 51.

The housing 3 comprises a lower wall portion 31 comprising a fusible element receiving part 31a receiving the fuse element 2 and a pair of terminal receiving portions 31b receiving a first end of respective terminals 5. The housing 3, comprises in addition, a tube-shaped tubular wall portion 32 extending perpendicularly from a circumferential edge portion of the wall portion 31 to the housing 7. The fusible member receiving portion 31a is made of concave shape. The terminal receiving portions 31b are made tubular in shape having an opening at both ends in the longitudinal direction of the terminal 5. The pins 8 are respectively inserted into the connecting hole 51 of the pair of terminals 5, from opening at one end of the terminal receiving portion 31b. In addition, the other end of the pair of terminals 5 extends out of the housing 3 by the other opening of the receiving portions 31b.

The housing 7 has a bottom wall portion 71 including a pair of retaining portions 71a supporting the pair of circuit terminals 6 and a tubular wall portion 72 extending from the wall portion 71 to the housing 3. The tubular wall 72 is arranged such that the tubular wall portion 32 is assembled (coupled) to the interior. The pair of circuit terminals 6 is formed into a female-type terminal and is respectively arranged to be coupled to the pair of terminals 5 when the pair of terminals 5 is inserted therein. One of the terminals of the pair of circuit terminals 6 is connected to one end of an electrical cable (not shown) connected to the battery and the other terminal of the pair of circuit terminals 6 is connected to a terminal end. an electric cable (not shown) connected to the electrical loads.

The circuit terminals 6 formed in a pair are arranged at a certain interval. The power source circuit is closed when the circuit terminals 6 are electrically connected to each other, and the power source circuit is open (broken) when the circuit terminals 6 are electrically separated. The respective retaining portions 71a are formed into a tubular shape having an opening at both ends in a longitudinal direction of the circuit terminal 6. The pair of terminals 5 is respectively inserted into the pair of retaining portions 71a from the opening at a first end of the pair of retaining portions 71a, and is respectively connected to the pair of circuit terminals 6. In addition, the electrical cables (not shown) connected to the circuit terminals 6 extend respectively through the openings. at the other end of the pair of retaining portions 71a.

The lid 4, as shown in FIG. 3, has an upper wall portion 41 covering the upper opening of the housing 3, a tubular inner tubular wall portion 42 extending from the upper wall portion 41 to the housing 3 and received at an inner face of the tubular wall portion 72 of the housing 7, a tube-shaped tubular outer wall portion 43 arranged to receive the tubular wall portion 72 of the housing 7 at the an inner face thereof, and a hood portion 44 connecting the inner tubular wall portion 42 to the outer tubular wall portion 43 and covering an end face of the tubular wall portion 72 of the housing 7.

The lower wall portion 31 of the housing 3 has a groove 31c receiving an end portion of the inner tubular wall portion 42 of the lid 4. A gasket (lip liner) 10, as shown in FIG. 4, is arranged between the tubular wall portion 32 of the housing 3 and the inner tubular wall portion 42 of the cover 4. The lip seal 10 is interposed between the hood portion 44 and a support portion 31 d so as to be supported by the cover portion 44 and support portion 31 d. The support portion 31d is located on an outer face with respect to the groove 31c and is arranged to extend perpendicularly with respect to the lower wall portion 31.

The housing 3, as shown in Figure 1, has a pair of projections 33 which constitute an axis of rotation of a lever 9. The lever 9 is fixed so as to rotate on the housing 3 to rotate around the The lever 9 has a guide groove 91 in which a projection 73 formed at the housing 7 is placed.

When the lever 9 is rotated counterclockwise while the tubular wall portion 32 of the housing 3 is in a coupling position in which the tubular wall portion 32 is coupled within the portion tubular wall 72 of the housing 7, as shown in Figure 1, the projection 73 of the housing 7 is guided along the guide groove 91 to a separation position in which the housing 3 is positioned outside the housing 7 In this separation position, the pair of terminals 5 and the pair of circuit terminals 6 are separated from each other thus cutting off the power source circuit.

Meanwhile, when the lever 9 is rotated clockwise while the housing 3 is in the separation position, the projection 73 of the housing 7 is guided along the guide groove 91 to the coupling position . In this coupling position, the pair of terminals 5 is respectively inserted into the pair of circuit terminals 6, thereby connecting the pair of terminals 5 and the pair of circuit terminals 6 to each other. As a result, the power source circuit is closed (established). As a result, maintenance of the electrical system of a vehicle can be conducted more safely. In other words, a rotation of the lever 9 around the projection 33 allows the fixing of the housing 3 on the housing 7 (that is to say, when the housing 3 is in the coupling position) and its separation from the housing 7 (That is, when the housing 3 is in the separation position).

According to the power source cutout 1 having the structure described above, the hood portion 44 covers a gap between the tubular wall portion 32 of the housing 3 and the tubular wall portion 72 of the housing 7, thereby preventing the water to enter the space. As a result, the watertightness of the power source circuit breaker 1 can be improved. In addition, by arranging the outer tubular portion 43 on the cover 4, the housing 3 can be received within a space between the housing 7 and the cover 4. Thus, the power source cutout 1 can be sealed simply by arranging the lip seal 10 between the cover 4 and the housing 7, thereby reducing the number of components.

Further, according to the present invention, since the housing 3 includes the support portion 31d supporting the lip liner 10, it is not necessary to create a separate liner support. Therefore, the number of components can be reduced.

In addition, according to the present invention, since the cover 4 can be mounted on the housing 3, the end portion of the inner tubular wall portion 42 of the cover 4 is received in the groove 31c. Therefore, the cover 4 can be mounted easily on the housing 3.

The previously described embodiment is only a representative embodiment of the present invention, and the present invention is not limited thereto. That is, different changes can be made without departing from the scope of the present invention.

Claims (3)

A power source cut-off (1) comprising: a fuse element (2) which melts when excessive current flows therethrough; a first housing (3) receiving the fuse element; a cover (4) covering an opening of the first housing; a pair of terminals (5), wherein each terminal has an end connected to the fuse element and the other end extending out of the first housing; a second housing (7) having a bottom wall portion (71) supporting a pair of circuit terminals (6), the pair of circuit terminals being arranged to be respectively connected to the pair of terminals; and a tubular wall portion (72) extending perpendicularly from the bottom wall portion, wherein the first housing is assembled within the tubular wall portion, the power source cutout comprising: lid (4) having a tubular inner tubular portion (42) received on an inner face of the tubular wall portion (72) of the second housing (7), an outer tube-shaped tubular portion (43) receiving the tubular wall portion of the second housing at an inner face thereof, and a hood portion (44) connecting the inner tubular wall portion to the outer tubular wall portion and covering an end face of the tubular wall portion (72) of the second housing (7); and a liner (10) arranged between the tubular wall portion (72) of the second housing (7) and the inner tubular wall portion (42) of the lid (4). A power source cut-out according to claim 1, wherein the first housing has a support portion (31d) supporting the liner so that the liner is interposed between the support portion and the hood portion. . A power source cut-out according to claim 1 or 2, wherein the first housing has a groove (31c) receiving an end portion of the inner tubular wall portion (42) of the lid (4).