JP2021192382A - Wiring accessory - Google Patents

Abstract

To provide a wiring accessory capable of firmly assembling a blade bearing member into a housing in a stable state.SOLUTION: A receptacle comprises: blade bearing spring blocks 42a and 42b where a plug blade of an insert plug is inserted and removed; and a body member 44 in which the blade bearing spring blocks 42a and 42b are accommodated. Ribs 47b protruding toward the blade bearing spring blocks 42a and 42b are formed on an inner wall surface of the body member 44. The blade bearing spring blocks 42a and 42b integrally include at least a pair of blade bearing pieces where the plug blade is inserted and removed between tip ends, and U-shaped bent spring parts 49 which are separately provided at both sides of the pair of blade bearing pieces. The blade bearing spring blocks 42a and 42b are accommodated in the body member 44 in a state where the ribs 47b are held between the bent spring parts 49.SELECTED DRAWING: Figure 13

Description

The present disclosure relates to wiring equipment.

Conventionally, in Patent Document 1, a grounding side blade receiving spring block, a voltage side blade receiving spring block, and a grounding blade receiving spring block are housed inside a housing formed by connecting a synthetic resin body and a cover. The outlets to be configured are listed. In this outlet, the ground side blade receiving spring block has two pairs of ground side blade receiving springs, the voltage side blade receiving spring block has two pairs of voltage side blade receiving springs, and the grounding blade receiving spring block has two pairs. Has a grounding blade receiving spring. The cover is formed with a plug blade insertion port into which the plug blade of the plug is inserted, and the above-mentioned grounding side blade receiving spring, voltage side spring, and grounding blade receiving spring are located behind each plug blade insertion port. Have been placed.

Japanese Unexamined Patent Publication No. 10-134893

In the outlet described in Patent Document 1, the ground side blade receiving spring block and the voltage side blade receiving block are housed and arranged in recesses in the body, respectively. In this case, it is preferable that each blade receiving spring block is firmly assembled in the body in a stable state.

An object of the present disclosure is to provide a wiring device capable of firmly assembling a blade receiving member in a housing in a stable state.

The wiring instrument according to the present disclosure includes a blade receiving member into which the plug blade of the insertion plug is inserted and removed, and a body member in which the blade receiving member is housed, and ribs are formed on the inner wall surface of the body member. The blade receiving member integrally has at least a pair of blade receiving pieces into which the plug blade is inserted and removed, and a bending spring portion provided between or outside the pair of blade receiving pieces, and the blade receiving member is a bending spring. It is stored in the body member with the rib sandwiched between the parts.

According to the wiring device according to the present disclosure, the blade receiving member can be firmly assembled in the housing in a stable state.

It is the whole perspective view of the outlet installed together with the decorative cover. It is a front view of an outlet. It is an exploded perspective view of the outlet which shows the state which the outlet main body cover and the outlet outer cover are removed. It is a front view of the outlet which shows the state which the outlet main body cover and the outlet outer cover are removed. It is an exploded perspective view which shows in the state which the case is removed in the outlet shown in FIG. FIG. 5 is a perspective view showing a state in which a body member and an opening / closing unit housing are removed from the outlet shown in FIG. It is a side view of the opening / closing unit in an open state. It is a side view of the opening / closing unit in a closed state. It is a perspective view which shows the terminal part of an outlet in a partially disassembled state. It is a perspective view which shows the temperature sensor mounting structure of an outlet. It is a partial notch plan view which shows the temperature sensor mounting structure of FIG. It is an exploded perspective view which shows the blade receiving spring block and a body member. It is a perspective view which shows the state which one blade receiving spring block is attached to a body member. It is an exploded perspective view which shows one blade receiving spring block and a body member. It is a perspective view which shows the part of the terminal part enlarged.

Hereinafter, embodiments according to the present disclosure will be described in detail with reference to the accompanying drawings. In this description, the specific shape, material, numerical value, direction, etc. are examples for facilitating the understanding of the present disclosure, and can be appropriately changed according to the intended use, purpose, specifications, and the like. Further, when a plurality of embodiments, modifications, and the like are included in the following, it is assumed from the beginning that those characteristic portions are appropriately combined and used.

FIG. 1 is an overall perspective view of an outlet 10 installed together with a decorative cover. FIG. 2 is a front view of the outlet 10. In FIGS. 1 and 2 (same for other drawings), the arrow X indicates the width direction (or the left-right direction), the arrow Y indicates the front-back direction (or the depth direction), and the arrow Z indicates the up-down direction (or the height direction). Is shown. These three directions are orthogonal to each other. It should be noted that these directions are examples and do not substantially define the configuration of the outlet according to the present disclosure.

As shown in FIGS. 1 and 2, the outlet 10 is formed in a rectangular parallelepiped having a vertically long elongated shape when viewed from the front. The size of the outlet 10 is formed to the dimensions specified in the JIS standard. The outlet 10 is installed, for example, in a state of being embedded in a wall or the like.

A decorative cover 2 having a rectangular frame shape is arranged around the front surface of the outlet 10. The decorative cover 2 is made of, for example, a resin molded product. By providing the decorative cover 2 around the front surface of the outlet 10, the hole formed in the wall of the outlet 10 and the attachment tool (not shown) for attaching the outlet 10 to the hole are hidden from the outside and looks good. It is a member to improve.

FIG. 3 is an exploded perspective view of the outlet 10 in a state where the outlet main body cover and the outlet outer cover are removed. As shown in FIGS. 1 to 3, the outlet 10 includes an outlet main body cover (cover member) 12 and an outlet outer cover (cover member) 14. Both the outlet body cover 12 and the outlet outer cover 14 are made of a resin molded product.

The outlet body cover 12 is arranged so as to cover the front surface of the outlet 10. The outlet body cover 12 includes an upper cover 12a and a lower cover 12b. The upper cover 12a is provided so as to cover the front of the blade receiving spring block housed in the case described later.

On the upper cover 12a, the plug blade insertion portions 18a and 18b are arranged in two upper and lower stages. In the upper plug blade insertion portion 18a, plug blade insertion openings 20a and 20b into which two plate-shaped plug blades of insertion plugs (not shown) are inserted are formed side by side in the left-right direction. Further, in the lower plug blade insertion portion 18b, the plug blade insertion ports 20a and 20b into which the two plug blades of the insertion plug are inserted are formed side by side in the left-right direction, and the plug blade insertion ports 20a and 20b are formed. A grounding terminal insertion port 20c into which a rod-shaped terminal for grounding is inserted is formed at a lower position between the two. In the present embodiment, the opening edge portion of one plug blade insertion port 20a is formed in a substantially D-shaped frame shape in front view, and the opening edge portion of the other plug blade insertion port 20b is formed in a rectangular frame shape. An example is shown. However, the present invention is not limited to this, and the opening edges of the plug blade insertion ports 20a and 20b may be formed in the same shape.

The lower cover 12b, which forms a part of the outlet body cover 12, is provided so as to cover the terminal portion 100 housed in the case. On the surface of the lower cover 12b, the characters "earth" and "open", a mark indicating grounding, and the like are attached. The lower cover 12b is detachably attached to the upper cover 12a. Specifically, it is attached by inserting two mounting pins 13 integrally formed in the lower cover 12b into the mounting holes 15 formed in the upper cover 12a. By removing the lower cover 12b from the outlet 10, the grounding terminal portion of the terminal portion 100 is exposed. As a result, the outlet 10 is in a state where an external electric wire for grounding can be connected.

The outlet outer cover 14 is formed in a U-shape when viewed from the front, and is arranged adjacent to the upper, left, and lower three-way outer sides of the outlet main body cover 12. The outlet outer cover 14 is provided so as to cover the front surface of the opening / closing unit 70, which will be described later. The outlet outer cover 14 is formed with a vertically long rectangular opening 14a and a circular through hole 14b located above the opening 14a. The operation lever 71 of the opening / closing unit 70 is arranged in the opening 14a in an exposed state. Further, a push switch mounted on a substrate, which will be described later, is arranged inside (that is, behind) the through hole 14b. Thereby, for example, the push switch can be pressed by inserting a thin rod-shaped tool, the tip of a pen, or the like into the through hole 14b. Further, the push switch is provided with a light emitting portion, and the through hole 14b also functions as a translucent window for confirming the lighting state of the light emitting portion from the outside.

In the outlet outer cover 14, above the through hole 14b, "power supply" and "abnormality" are indicated. The area above the display "power supply" is the power lamp portion 14c that lights up in green, for example, when the power is supplied to the outlet 10, and the area above the display "abnormality" lights up or blinks in red, for example, when the outlet 10 generates abnormal heat. It is the abnormal light part 14d. Although the power light portion 14c and the abnormal light portion 14d are translucent portions through which light is transmitted through the wall surface of the outlet outer cover 14, they may be formed as translucent windows having through holes, respectively.

FIG. 4 is a front view of the outlet 10 in a state where the outlet main body cover 12 and the outlet outer cover 14 are removed. FIG. 5 is an exploded perspective view showing the outlet 10 shown in FIG. 4 with the case 16 removed.

The outlet 10 includes a case 16. The case 16 is made of, for example, a resin molded product. As shown in FIGS. 3 and 4, the case 16 has a rectangular parallelepiped outer shape, has a bottom surface at the rear, and has a shape that opens forward.

As shown in FIGS. 3 and 4, an engaging portion 22 is formed so as to project from the outer surface of the case 16 along the long side direction. Two engaging portions 22 are provided on each side surface at intervals. The outlet body cover 12 is attached to the case 16 by engaging the hook portion (not shown) of the outlet body cover 12 with these engaging portions 22.

As shown in FIG. 5, two pillars 26 are erected on the bottom surface 24 of the case 16 at intervals in the vertical direction Z. A space 28 for accommodating the opening / closing unit 70 is partitioned between the pillar portion 26 and the case inner surface 25a on one side in the width direction X. Further, a space 30 for accommodating the blade receiving spring unit 40, the substrate 120, and the like is partitioned between the pillar portion 26 and the case inner surface 25b on the other side.

Further, a partition wall portion 27 having an L-shape when viewed from the front is projected from the lower portion of the bottom surface 24 of the case 16. The partition wall portion 27 partitions the space 32 in which the terminal portion 100 is housed in the case 16.

Further, a plurality of support protrusions 29 are formed so as to project from the bottom surface 24 of the case 16. The substrate 120 housed in the case 16 is supported by the tip surface of these support protrusions 29.

FIG. 6 is a perspective view showing a state in which the body member and the opening / closing unit housing are removed from the outlet shown in FIG. As shown in FIGS. 4 to 6, the outlet 10 includes a blade receiving spring unit 40, an opening / closing unit 70, and a substrate 120. Further, the outlet 10 may include a grounding terminal portion 102.

The blade receiving spring unit 40 presses the two blade receiving spring blocks 42a and 42b, the body member 44 supporting these blade receiving spring blocks 42a and 42b, and the blade receiving spring blocks 42a and 42b against the body member 44. Includes a fixing member 46 that is fixed in a state. The body member 44 and the fixing member 46 are preferably configured by an insulating resin molded product. The blade receiving spring blocks 42a and 42b may be held or fixed by being sandwiched by a pair of claws (not shown) provided on the body member 44.

One blade receiving spring block 42a is a terminal member that is electrically connected to an external power supply line of a voltage phase (hereinafter referred to as L phase) connected to the terminal portion 100 of the outlet 10. The other blade receiving spring block 42b is a terminal member electrically connected to an external power line of a neutral phase (hereinafter referred to as N phase) connected to the terminal portion 100 of the outlet 10. The blade receiving spring blocks 42a and 42b are manufactured, for example, by punching and bending a metal plate such as a copper plate.

As the blade receiving spring blocks 42a and 42b, those having the same shape can be used. Therefore, in the following, the configuration of one blade receiving spring block 42a will be mainly described, and the description of the other blade receiving spring block 42b will be appropriately omitted by reference.

The blade receiving spring block 42a includes two pairs of blade receiving springs 48, a connecting portion 50 that mechanically and electrically connects each blade receiving spring 48, and a connecting portion 50 along the front-rear direction from the edge portion. It integrally has a connection terminal portion 52 formed by bending.

In the blade receiving spring block 42a for the L phase, the pair of blade receiving springs 48 are arranged inside the plug blade insertion port 20a formed on the right side of the upper stage of the upper cover 12a. The other pair of blade receiving springs 48 are arranged inside the plug blade insertion port 20a formed on the right side of the lower stage of the upper cover 12a (see FIG. 2).

In the N-phase blade receiving spring block 42b, the pair of blade receiving springs 48 are arranged inside the plug blade insertion port 20b formed on the left side of the upper stage of the upper cover 12a. The other pair of blade receiving springs 48 are arranged inside the plug blade insertion port 20b formed on the left side of the lower stage of the upper cover 12a (see FIG. 2).

As shown in FIG. 6, one end of the L phase conducting wire 54a is connected to the connection terminal portion 52 of the blade receiving spring block 42a for the L phase by soldering or the like. Further, one end of the N-phase conducting wire 54b is connected to the connection terminal portion 52 of the blade receiving spring block 42b for the N-phase by soldering or the like. The L-phase conducting wire 54a and the N-phase conducting wire 54b are preferably configured by, for example, an insulatingly coated braided copper wire. The other ends of the L-phase conducting wire 54a and the N-phase conducting wire 54b are connected to the opening / closing unit 70, respectively.

Further, a temperature sensor 54 is attached to the connection terminal portions 52 of the blade receiving spring blocks 42a and 42b by clips 56 (see FIG. 11). The mounting structure of the temperature sensor 54 will be described in detail later. The temperature sensor 54 measures the temperatures of the blade receiving spring blocks 42a and 42b, respectively, and transmits the measurement results to the substrate 120 via the signal lines 60a and 60b.

The substrate 120 is a circuit board on which a pattern wiring (not shown) is formed. For example, a control device including a microcomputer is mounted on the board 120. The control device determines whether or not the temperature of the blade receiving spring blocks 42a and 42b exceeds a predetermined threshold value based on the measurement result transmitted from the temperature sensor 54. Then, when the temperature of at least one of the blade receiving spring blocks 42a and 42b exceeds a predetermined threshold temperature, the control device determines that the outlet 10 is in an overheated state, and operates the opening / closing unit described later via the signal line 60c. Send a signal.

Here, the predetermined threshold temperature can be set to, for example, 100 ° C to 150 ° C. The predetermined threshold temperature can be set according to the heat resistant temperature of the resin material constituting the outlet main body cover 12 of the outlet 10 and the body member 44. Further, the predetermined threshold temperature may be changed according to the environmental temperature (or ambient temperature) in which the outlet 10 is used. Further, a buzzer device may be mounted on the substrate 120. When it is determined that the temperature of at least one of the blade receiving spring blocks 42a and 42b exceeds a predetermined threshold temperature and is in an overheated state, the control device blinks the light emitting portion of the push switch 132 and sounds the buzzer device. The notification operation may be performed. Further, as the resin material constituting the cover member such as the outlet body cover 12 and the body member 44, for example, melamine resin, urea resin, polybutylene terephthalate (PBT) and the like are preferably used.

As shown in FIG. 6, two signal lines 62a and 62b extend from the back surface of the substrate 120. Even if a signal indicating the measurement result by the temperature sensor 54 or the operating state (on / off state) of the opening / closing unit 70 is transmitted to the external power control device or distribution board of the outlet 10 via these signal lines 62a and 62b. good.

In the present embodiment, an example in which the substrate 120 has a function of detecting an overheated state of the outlet 10 as an abnormality will be described, but the present invention is not limited to this. The outlet may have a seismic function that cuts off the power supply when an earthquake having a predetermined seismic intensity or higher is detected as an abnormality. In this case, the seismic intensity may be configured by a seismic sensor capable of detecting acceleration, such as a gyro sensor, installed on the substrate or in another part inside the outlet. The seismic sensor is connected to the control device on the board via the pattern wiring on the board or the signal line. The control device outputs an operation signal to the opening / closing unit 70 when it is determined that the earthquake has a predetermined seismic intensity or higher based on the input from the seismic sensor. Further, the outlet according to the present disclosure may be provided with such a seismic detection function and the above-mentioned overheat detection function in combination, or may be provided with the seismic function alone. Further, the outlet according to the present disclosure may be provided with an electric leakage detection function for shutting off the current when an electric leakage is detected as an abnormality, in combination with the above-mentioned overheating or seismic sensitivity, or independently. A current sensor may be provided in the outlet to detect electric leakage, and the opening / closing unit may be operated when the current flowing through the blade receiving spring block exceeds a predetermined threshold current value.

Even in an outlet having such a seismic detection function and an electric leakage detection function, outlet components other than the board can be shared, the productivity of the outlet can be improved, and the manufacturing cost can be suppressed.

As shown in FIG. 6, the outlet 10 includes a switch board 130. A push switch 132 is mounted on the switch board 130. The push switch 132 is arranged inside the through hole 14b of the outlet outer cover 14 (see FIGS. 1 to 3). As a result, the push switch 132 can be pushed and operated from the outside of the outlet 10 through the through hole 14b. The switch board 130 is connected to the substrate 120 via a signal line. When the push switch 132 is pushed, an operation signal is transmitted from the substrate 120 to the opening / closing unit 70 described later. As a result, the opening / closing unit 70 switches from the closed state to the open state, and the push switch 132 becomes a blinking state indicating an abnormal state. By pressing the push switch 132 in this way, it is possible to test whether or not the outlet 10 operates normally. Further, by pressing the push switch 132, the buzzer device for notifying the overheated state can be stopped.

A power light emitting unit 134 and an abnormal light emitting unit 136 are mounted on the switch board 130. The power light emitting unit 134 is arranged to face the inside of the power light portion 14c of the outlet outer cover 14, and the abnormal light emitting unit 136 is arranged to face the inside of the abnormal light portion 14d of the outlet outer cover 14. (See FIG. 2). The power light emitting unit 134 is preferably configured by, for example, a light emitting diode (LED) that emits green light. The anomalous light emitting unit 136 is preferably configured by, for example, a light emitting diode (LED) that emits red light. The power light emitting unit 134 is turned on when the outlet 10 is in the power supply state. The abnormal light emitting unit 136 is turned on or blinks when abnormal heat generation is detected in the outlet 10, as will be described later. Since the lighting state of these light emitting units 134 and 136 can be visually recognized from the outside of the outlet 10, the light emitting units 134 and 136 form a part of the notification unit.

Next, the opening / closing unit 70 will be described with reference to FIGS. 7 and 8. FIG. 7 is a side view of the opening / closing unit 70 in the closed circuit state. FIG. 8 is a side view of the opening / closing unit 70 in the open road state. In FIGS. 7 and 8, the opening / closing unit 70 is shown with the wall surface of the housing covering the outside in the width direction removed.

As shown in FIG. 7, the opening / closing unit 70 has a housing 72. The front surface of the housing 72 is rotatably provided with the operating lever 71 exposed.

The opening / closing unit 70 includes a coil 73, a movable iron piece 74, a trigger lever 75, a support lever 76, an actuating plate 77, a pressing spring 78, an actuating member 79, a pressure contact spring 80, 85, an L-phase movable terminal plate 81, and the opening / closing unit 70. L-phase movable terminal portion 82, N-phase movable terminal plate 83 and N-phase movable terminal portion 84, L-phase fixed terminal plate 86 and L-phase fixed terminal portion 87, and N-phase fixed terminal plate 88 and N-phase fixed terminal portion 89. To prepare for.

The coil 73 receives an operation signal from the substrate 120 and is supplied with electric power. As a result, the coil 73 generates a magnetic force. The movable iron piece 74 is provided in the housing 72 so as to be movable in the front-rear direction Y at a position close to the rear side (lower side in FIG. 7) of the coil 73. The movable iron piece 74 is fixed to one end portion 83a of the N-phase movable terminal plate 83. The other end of the N-phase conducting wire 54b is electrically and mechanically connected to one end portion 83a of the N-phase movable terminal plate 83 by soldering or the like.

The trigger lever 75 has a substantially L-shaped shape, and is provided on the side wall surface in the width direction of the housing 72 so as to be rotatable around the shaft portion 75a. One end of the trigger lever 75 is arranged at a position where it can engage with the movable iron piece 74.

The support lever 76 has a shape extending in the front-rear direction Y, and is rotatably provided on the side wall surface in the width direction of the housing 72 around the shaft portion 76a. One end of the support lever 76 is arranged at a position where it can engage with the other end of the trigger lever 75.

One end of the actuating plate 77 abuts on the other end of the support lever 76 and is supported. The operating plate 77 is connected to the other end of a substantially U-shaped pressing spring 78 whose one end is connected to the operating lever 71, and one end thereof is on the other end of the support lever 76 due to the pressing force of the pressing spring 78. Is pressed against.

A torsion spring 90 is arranged around the center of rotation of the operating lever 71. As will be described later, when the opening / closing unit 70 operates and the power is cut off, the operating lever 71 is rotated by the urging force of the torsion spring 90 and protrudes to the front surface of the outlet 10 as shown in FIG. Become.

As shown in FIG. 7, the actuating member 79 is arranged adjacent to the support lever 76 and the actuating plate 77, and is rotatably provided on the widthwise side wall of the housing 72 about the shaft portion 79a. The rear end portion (lower end portion in FIG. 7) of the actuating member 79 is urged by the pressure contact spring 80. As a result, the operating member 79 is urged by the pressure contact spring 80 in the direction of rotation in the counterclockwise direction in FIG. 7.

The actuating member 79 is provided so that a substantially central portion in the front-rear direction Y can be engaged with the L-phase movable terminal plate 81. The other end of the L-phase conducting wire 54a is electrically and mechanically connected to one end of the L-phase movable terminal plate 81 by soldering or the like. Further, an L-phase movable terminal portion 82 is fixed to the other end of the L-phase movable terminal plate 81 by, for example, caulking.

The L-phase movable terminal plate 81 is held by the operating member 79 at a position rotated clockwise against the urging force of the pressure contact spring 85. As a result, as will be described later, when the actuating member 79 is rotated in the counterclockwise direction by the urging force of the press contact spring 80, the L-phase movable terminal plate 81 is released from the presser foot by the press contact spring 80, so that the press contact spring 85 is released. It is designed to be pushed up by the urging force of.

Further, the operating member 79 presses the intermediate portion of the N-phase movable terminal plate 83. An N-phase movable terminal portion 84 is fixed to the other end of the N-phase movable terminal plate 83 by, for example, caulking. As will be described later, when the actuating member 79 rotates in the counterclockwise direction, the N-phase movable terminal plate 83 is pushed up by the rear end portion (lower end portion in FIG. 7) of the actuating member 79, and the N-phase movable terminal portion 84 Is designed to move forward (upper in FIG. 7).

As shown in FIG. 7, the L-phase movable terminal portion 82 is in contact with the L-phase fixed terminal portion 87 arranged in the housing 72 and is electrically connected. The L-phase fixed terminal portion 87 is fixed to one end of the L-phase fixed terminal plate 86 by, for example, caulking. The L-phase fixed terminal plate 86 extends to the outside of the housing 72.

The N-phase movable terminal portion 84 is in contact with the N-phase fixed terminal portion 89 arranged in the housing 72 and is electrically connected. The N-phase fixed terminal portion 89 is fixed to one end of the N-phase fixed terminal plate 88 by, for example, caulking. The N-phase fixed terminal plate 88 extends to the outside of the housing 72.

In the opening / closing unit 70 configured as described above, when power is supplied to the coil 73 by an operation signal from the substrate 120, the movable iron piece 74 is attracted by the magnetic force of the coil 73 and is directed by the arrow A as shown in FIG. Move to.

Then, the trigger lever 75 rotates in the clockwise direction when one end is pushed by the movable iron piece 74, and the support lever 76 is pushed in the counterclockwise direction by being pushed by the other end of the trigger lever 75. Rotate.

Then, one end of the operating plate 77 supported by the upper end of the support lever 76 is disengaged, and the operating plate 77 is pushed backward (downward in FIG. 8) by the pressing force of the pressing spring 78. At this time, the operating lever 71 is rotated so that the end portion protrudes from the front surface of the outlet 10 by the reaction force of the pressing spring 78 and the urging force of the torsion spring 90.

When the support lever 76 of the actuating plate 77 is disengaged, the actuating member 79 pushed and supported by the actuating plate 77 in the clockwise direction is rotated counterclockwise by the urging force of the pressure welding spring 80. .. As a result, the L-phase movable terminal plate 81 is moved by the urging force of the pressure contact spring 85, and the L-phase movable terminal portion 82 is separated from the L-phase fixed terminal portion 87. At the same time, the N-phase movable terminal plate 83 is moved so as to be lifted by being pushed by the operating member 79 that rotates in the counterclockwise direction. As a result, the N-phase movable terminal portion 84 is separated from the N-phase fixed terminal portion 89. By separating the L-phase movable terminal portion 82 and the N-phase movable terminal portion 84 from the L-phase fixed terminal portion 87 and the N-phase fixed terminal portion 89, respectively, the opening / closing unit 70 switches from the closed state to the open state. As a result, the power supply to the blade receiving spring blocks 42a and 42b is cut off, and the power supplied from the outlet 10 to the load via the plug is turned off. When the abnormal state is released and the operating lever 71 is manually returned from the state shown in FIG. 8 to the state shown in FIG. 7, each component inside the opening / closing unit 70 is also shown in FIG. 7 from the state shown in FIG. It is possible to return to the state and return from the open state to the closed state.

The opening / closing unit 70 is not limited to the one having the above-mentioned configuration, and an electric circuit cutoff mechanism having any known configuration may be used.

FIG. 9 is a perspective view showing the terminal portion 100 of the outlet 10 in a partially disassembled state. The outlet 10 includes a terminal portion 100. The terminal portion 100 is a connection portion to which an external power line is electrically and mechanically connected.

The terminal portion 100 includes an L-phase fixed terminal plate 86, an N-phase fixed terminal plate 88, lock springs 92 and 94, and an unlocking member 96. The L-phase fixed terminal plate 86 has an L-phase connecting portion 86a bent in a U shape at the other end extending from the housing 72 of the opening / closing unit 70. The N-phase fixed terminal plate 88 has an N-phase connecting portion 88a bent in a U shape at the other end extending from the housing 72 of the opening / closing unit 70. Lock springs 92 and 94 are arranged inside the connection portions 86a and 88a, respectively. As a result, the connection portions 86a and 88a are so-called quick connection terminals that can be quickly connected by inserting the connection terminals of the L-phase and N-phase external power lines from the rear.

By pushing the unlocking member 96, the lock springs 92 and 94 can be separated from the phase connection portions 86a and 88a, and as a result, the connection terminals of the L-phase and N-phase external power lines are connected to the connection portion. It can be removed from 86a and 88a.

Further, the terminal portion 100 includes a grounding terminal portion 102. The grounding terminal portion 102 includes, for example, a grounding terminal plate 104 formed by punching and bending a metal plate such as a copper plate. A screw 105 is screwed into one end of the grounding terminal plate 104, and the external grounding electric wire can be connected to the grounding terminal 102 by using the screw 105. A grounding blade receiving spring 106 is formed at the other end of the grounding terminal plate 104. The grounding blade receiving spring 106 is arranged inside the grounding terminal insertion port 20c formed in the lower stage of the upper cover 12a of the outlet body cover 12. As a result, the grounding terminal of the insertion plug inserted from the grounding terminal insertion port 20c is connected to the grounding terminal plate 104.

FIG. 10 is a perspective view showing a temperature sensor mounting structure of an outlet. FIG. 11 is a partially cutaway plan view showing the temperature sensor mounting structure of FIG. FIG. 12 is an exploded perspective view showing the blade receiving spring blocks 42a and 42b and the body member 44. In FIGS. 10 to 12, the fixing member 46 constituting the blade receiving spring unit 40 is not shown.

As shown in FIGS. 10 to 12, the blade receiving spring unit 40 supports the blade receiving spring block 42a for the L phase, the blade receiving spring block 42b for the N phase, and these blade receiving spring blocks 42a and 42b. The body member 44 is provided. The blade receiving spring blocks 42a and 42b have a shape symmetrical with respect to the BB line which is the widthwise center line of the blade receiving spring unit 40. Hereinafter, the blade receiving spring block 42a will be described, but the same applies to the blade receiving spring block 42b.

The blade receiving spring block 42a includes two pairs of blade receiving springs 48, a connecting portion 50 that mechanically and electrically connects each blade receiving spring 48, and a connecting portion 50 along the front-rear direction Y from the edge portion. It integrally has a connection terminal portion 52 formed by bending. A temperature sensor 54 is attached to the connection terminal portion 52.

In the present embodiment, the temperature sensor 54 is sandwiched and fixed by a clip 56 which is an example of a pressing member. As a result, the temperature sensor 54 is closely arranged with the blade receiving spring block 42a, which is the temperature measurement target. The clip 56 integrally has a pair of holding pieces 56a and a connecting portion 56b that connects each holding piece 56a.

By sandwiching the temperature sensor 54 by the clip 56 in this way, the temperature sensor 54 is attached in close contact with the connection terminal portion 52 which is the temperature measurement target. This improves the temperature measurement accuracy of the temperature sensor 54. Further, the blade receiving spring blocks 42a and 42b can be easily assembled to the body member 44 in a state where the temperature sensor 54 is attached to the connection terminal portion 52 by the clip 56.

The temperature sensor 54 is preferably composed of a thermistor, a resistance temperature detector, or a thermocouple. In this case, the clip 56 heats any of the thermistor, the resistance temperature detector, and the thermocouple. It is attached in close contact with the connection terminal portion 52 to be measured. Further, a heat conductive member may be interposed between the temperature sensor 54 and the connection terminal portion 52. The heat conductive member is preferably composed of a flexible and thin member such as a sheet or grease having heat conductivity. By providing such a heat conductive member, the temperature sensor 54 tends to be in a state closer to the temperature measurement target, which can contribute to the improvement of the temperature measurement accuracy.

In the present embodiment, an example in which the clip 56 is used as a pressing member for pressing the temperature sensor 54 and bringing it into close contact with the connection terminal portion 52 to be measured by the temperature is given, but the present invention is not limited to this. .. Instead of the clip 56, the temperature sensor may be pressed against the temperature measurement target by using an urging member such as a coil spring or a leaf spring.

FIG. 13 is a perspective view showing a state in which one blade receiving spring block 42a is assembled to the body member 44. FIG. 14 is an exploded perspective view showing one blade receiving spring block 42a and the body member 44. Note that the temperature sensor 54 and the clip 56 are not shown in FIGS. 13 and 14.

As shown in FIGS. 13 and 14, the blade receiving spring block (blade receiving member) 42a is a connecting portion that mechanically and electrically connects the two pairs of blade receiving springs 48 and each blade receiving spring 48. 50 and a connection terminal portion 52 formed by bending along the front-rear direction Y from the edge portion of the connecting portion 50 are integrally provided. The blade receiving spring 48 includes a pair of blade receiving pieces facing each other. The tip of each blade receiving piece is bent outward so as to open in a substantially V shape. This ensures that the plug blade of the plug is received between the pair of blade receivers.

Further, the blade receiving spring block 42a integrally has U-shaped bending spring portions 49 provided apart from each other on both sides of the blade receiving spring 48 including a pair of blade receiving pieces. The bending spring portion 49 has a bending portion 49a on the same side as the tip end portion of the pair of blade receiving pieces, and also has a pair of stretching portions 49b extending from the bending portion 49a toward the base end portion side of the pair of blade receiving pieces. is doing.

The blade receiving spring block 42a is housed and arranged in the body member 44. The body member 44 is formed so as to partition the four recesses 45. Of the inner wall surface that partitions the recess 45, two ribs 47a are formed on the wall surface located on the center side in the width direction X at intervals and extended in the front-rear direction Y. These ribs 47a can increase the strength of the body member 44.

Further, among the inner wall surfaces that partition the recess 45, ribs 47b are formed so as to face each other on the inner wall surface facing the vertical direction Z. As shown in FIG. 13, these ribs 47b are a pair of extension portions of bending spring portions 49 located on both sides of the blade receiving spring 48 in the vertical direction Z when the blade receiving spring block 42a is assembled to the body member 44. It is in a state of being sandwiched by 49b. Further, the bent portion 49a of the bent spring portion 49 is in contact with the end portion of the rib 47b.

In this way, the bent portion 49a of the bent spring portion 49 is assembled in contact with the end portion of the rib 47b formed on the body member 44, so that the blade receiving spring block 42a is accurately positioned with respect to the body member 44. Can be assembled to. Further, when the pair of extension portions 49b of the bending spring portion 49 are in a state of sandwiching the rib 47b, the blade receiving spring block 42a can be firmly assembled to the body member 44.

Further, when a force in the width direction X acts on the insertion plug inserted into and removed from the outlet 10, the pair of blade receiving pieces are plastically deformed so as to open abnormally, and the contact pressure between the plug blade and the blade receiving piece. May be weakened. Then, spark discharge or the like may occur due to poor contact, which may cause abnormal overheating. On the other hand, in the outlet 10 of the present embodiment, the rib 47b is sandwiched between the bending spring portion 49 integrally formed with the blade receiving spring 48, so that even if the above-mentioned opening force acts, the pair is paired. It is possible to prevent or suppress the blade receiving spring 48 made of the blade receiving piece from being abnormally opened and deformed.

In the present embodiment, an example in which ribs 47b are formed on the two inner wall surfaces of the recess 45 facing the vertical direction Z and sandwiched by the bending spring portion 49 has been described, but the present invention is not limited to this. The ribs protruding from the inner wall surface of the concave portion 45 in the front-rear direction Y (that is, the bottom surface of the concave portion 45) may be sandwiched between a pair of extending portions of the bending spring portion 49, or the ribs protruding from the bottom surface may be sandwiched. It may be configured to be sandwiched by the base end portion (that is, the end portion on the side opposite to the tip end portion) of the pair of blade receiving pieces.

FIG. 15 is an enlarged perspective view showing a part of the terminal portion. As shown in FIG. 15, a printed circuit board 110 for temperature measurement may be provided. Temperature sensors 112a and 112b are mounted on the printed circuit board 110. The temperature sensors 112a and 112b are preferably configured by, for example, a thermistor, a resistance temperature detector, or a thermocouple. The temperature sensors 112a and 112b may be covered with a heat conductive member and provided on the printed circuit board 110. In this case, the temperature sensors 112a and 112b are joined to the L-phase fixed terminal plate 86 and the N-phase fixed terminal plate 88, which are the objects of temperature measurement, via the heat conductive member. The thermally conductive member is preferably a flexible resin having thermal conductivity. As a result, the temperature sensors 112a and 112b come into close contact with the temperature measurement target, and the temperature measurement accuracy can be improved. Further, in order to make the electrical insulation between the L-phase fixed terminal plate 86 and the N-phase fixed terminal plate 88, which are the objects of temperature measurement, more reliable, the heat conductive member is preferably an insulating resin. As a specific example, a low-hardness acrylic resin can be used as the heat conductive member, and for example, Hypersoft heat dissipation sheets (registered trademark) 6500H, 6510H, 5578H manufactured by 3M can be used.

The temperature sensor 112a mounted on the printed circuit board 110 is joined to the L-phase fixed terminal plate 86, and the temperature sensor 112b mounted on the printed circuit board 110 is joined to the N-phase fixed terminal board 88. Then, the temperature of the L-phase fixed terminal plate 86 measured by the temperature sensor 112a is transmitted to the substrate 120 via the signal line 114a. Further, the temperature of the N-phase fixed terminal plate 88 measured by the temperature sensor 112b is transmitted to the substrate 120 via the signal line 114b.

The control device provided on the substrate 120 determines whether or not the fixed terminal temperature measured by the temperature sensors 112a and 112b exceeds a predetermined threshold temperature. Then, when the temperature of at least one of the fixed terminal plates 86 and 88 exceeds a predetermined threshold temperature, the control device determines that the outlet 10 is in an overheated state, and sends an operation signal to the opening / closing unit 70 via the signal line 60c. Send. As a result, the opening / closing unit 70 operates to open the circuit, and the power supply to the blade receiving spring blocks 42a and 42b is cut off. As the predetermined threshold temperature here, the same value as that compared with the temperature measured by the temperature sensor 54 of the blade receiving spring blocks 42a and 42b described above can be used.

In the outlet 10 of the present embodiment, the temperature sensors are arranged on both the blade receiving spring blocks 42a and 42b and the fixed terminal plates 86 and 88, but the blade receiving spring blocks 42a and 42b or the fixed terminal plates 86 and 88 have their temperature sensors. The temperature sensor may be arranged in only one of them.

As described above, the outlet 10 of the present embodiment includes blade receiving spring blocks 42a and 42b into which the plug blade of the insertion plug is inserted and removed, and a body member 44 in which the blade receiving spring blocks 42a and 42b are housed. Ribs 47b protruding toward the blade receiving spring blocks 42a and 42b are formed on the inner wall surface of the body member 44. The blade receiving spring blocks 42a and 42b have at least a pair of blade receiving pieces into which plug blades are inserted and removed between the tip portions, and U-shaped bending spring portions 49 provided apart from each other on both sides of the pair of blade receiving pieces. And have one. The blade receiving spring blocks 42a and 42b are housed in the body member 44 with the ribs 47b sandwiched between the bending spring portions 49. According to this configuration, the blade receiving spring blocks 42a and 42b can be firmly assembled to the body member 44 in a state of being accurately positioned and in a stable state.

In the outlet of the present embodiment, the bending spring portion 49 has a bending portion 49a on the same side as the tip end portion of the pair of blade receiving pieces, and extends from the bending portion 49a toward the base end portion side of the pair of blade receiving pieces. It preferably has a pair of stretched portions 49b, and the pair of stretched portions 49b face each other with a gap capable of sandwiching the rib 47b. According to this configuration, the ribs 47b are firmly sandwiched by the pair of extension portions 49b of the bending spring portion 49, so that the blade receiving spring blocks 42a and 42b are accurately positioned with respect to the body member 44, and It can be firmly assembled in a stable state.

The outlet according to the present disclosure is not limited to the above-described embodiment and its modifications, and various changes and improvements can be made within the scope of the matters described in the claims of the present application. Of course.

2 Cosmetic cover, 10 outlet, 12 outlet body cover (cover member), 12a upper cover, 12b lower cover, 13 mounting pin, 14 outlet outer cover (cover member), 14a opening, 14b through hole, 14c power light part, 14d Abnormal light part, 15 mounting holes, 16 cases, 18a, 18b plug blade insertion part, 20a, 20b plug blade insertion port, 20c ground terminal insertion port, 22 engagement part, 24 bottom surface, 25a, 25b case inner surface, 26 pillars Part, 27 partition wall part, 28, 30, 32 space, 29 support protrusion, 40 blade receiving spring unit, 42a, 42b blade receiving spring block (blade receiving member), 44 body member, 45 recess, 46 fixing member, 47a , 47b rib, 48 blade receiving spring, 49 bending spring part, 49a bending part, 49b extension part, 50 connecting part, 52 connection terminal part, 54, 112a, 112b temperature sensor, 54a L phase lead wire, 54b N phase lead wire, 56 Clip, 56a holding piece, 56b connecting part, 60a, 60b, 60c, 62a, 62b signal line, 70 opening / closing unit, 71 operating lever, 72 housing, 73 coil, 74 movable iron piece, 75 trigger lever, 75a, 76a, 79a axis , 76 support lever, 77 actuating plate, 78 pressing spring, 79 actuating member, 81 L phase movable terminal plate, 82 L phase movable terminal part, 83 N phase movable terminal plate, 84 N phase movable terminal part, 86 L phase fixed Terminal plate, 86a L-phase connection part, 87 L-phase fixed terminal part, 88 N-phase fixed terminal plate, 88a N-phase connection part, 89 N-phase fixed terminal part, 96 unlocking member, 100 terminal part, 102 grounding terminal part , 104 Grounding terminal board, 110 printed board, 114a, 114b signal line, 120 board, 130 switch board, 132 push switch, 134 power light emitting part, 136 abnormal light light emitting part.

Claims (2)

The blade receiving member from which the plug blade of the plug is inserted and removed,
A body member in which the blade receiving member is housed, and
Ribs are formed on the inner wall surface of the body member.
The blade receiving member integrally has at least a pair of blade receiving pieces into which the plug blade is inserted and removed, and a bending spring portion provided between or outside the pair of blade receiving pieces.
The blade receiving member is housed in the body member in a state where the rib is sandwiched by the bending spring portion.
Wiring equipment. The bending spring portion has a bending portion on the same side as the tip end portion of the pair of blade receiving pieces, and also has a pair of stretching portions extending from the bending portion toward the base end portion side of the pair of blade receiving pieces. And
The wiring device according to claim 1, wherein the pair of extending portions face each other with a gap capable of sandwiching the rib.

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