JP2019185895A - Table tap - Google Patents

Abstract

To provide a table tap in which a pair of lead parts can be formed as a common component, and an insulation gap between each lead part and a receiving part which is not coupled with each lead part can be secured.SOLUTION: A table tap 1 comprise a housing, a pair of receiving parts 70A,70B, and a pair of lead parts 80A,80B. The housing 3 has a plurality of outlets 2 arrayed in one direction. A pair of the receiving parts 70A,70B are provided for each of a plurality of the outlets 2. A pair of the lead parts 80A,80B are coupled with corresponding receiving parts 70A,70B out of a pair of the receiving parts 70A,70B. An arrangement direction in which a plurality of the outlets 2 are arrayed and an arrangement direction in which each of a pair of the receiving parts 70A,70B is arrayed are aligned in one direction. A pair of the lead parts 80A,80B are formed in the same shape and size with each other. Directions of the shapes of a pair of the lead parts 80A,80B are aligned in the same direction, and arrangements of the parts arranged out of alignment with each other along one direction.SELECTED DRAWING: Figure 2

Description

  The present disclosure relates generally to a table tap, and more particularly to a table tap including a receiving portion to which a conductor of an insertion plug is connected.

  The table tap described in Patent Document 1 includes a housing having a plurality of outlets (also referred to as outlets), a pair of blade receiving members (receiving portions) provided for each outlet, and a pair of conductive plates (lead portions). It has. A pair of blade receiving members provided for each outlet is electrically connected to a pair of plug blades of an insertion plug inserted into the outlet. The pair of conductive plates has a one-to-one correspondence with the pair of blade receiving members for each outlet, and is connected to the corresponding blade receiving member.

JP 2012-174503 A

  In the table tap described in Patent Document 1, each of the pair of conductive plates is arranged in parallel with a space between each other. In this state, each of the pair of conductive plates is disposed so as to ensure an insulation distance from an unconnected blade receiving member of the pair of blade receiving members. Further, the arrangement direction in which the plurality of outlets are arranged and the arrangement direction in which the pair of receiving portions are arranged are aligned in the same direction. In order to satisfy the conditions of such arrangement and arrangement, each of the pair of conductive plates is formed in a different shape. For this reason, there existed a fault that the number of parts increased.

  Therefore, in view of the above reasons, the present disclosure provides a table tap that can form a pair of lead portions as a common component and can secure an insulation interval between each lead portion and a receiving portion that is not coupled to each lead portion. For the purpose.

  The table tap which concerns on 1 aspect of this indication is provided with the housing | casing, a pair of receiving part, and a pair of lead part. The housing has a plurality of outlets arranged in one direction. Each of the plurality of outlets includes a pair of insertion holes into which a pair of electrodes of the insertion plug are inserted. The pair of receiving portions are provided for each of the plurality of outlets, and are electrically connected to the pair of electrodes inserted into the pair of insertion holes. The pair of lead portions has a one-to-one correspondence with the pair of receiving portions and is coupled to the corresponding receiving portions. The arrangement direction in which the plurality of outlets are arranged and the arrangement direction in which each of the pair of receiving portions are arranged are aligned in the one direction. The pair of lead portions are formed in the same shape and size. The pair of lead portions are arranged such that the directions of the shapes are aligned in the same direction, and the mutual arrangement is shifted from each other along the one direction.

  The present disclosure has an effect that a pair of lead portions can be formed as a common component, and an insulation interval between each lead portion and a receiving portion that is not coupled to each lead portion can be secured.

FIG. 1 is a perspective view of a table tap according to an embodiment of the present disclosure. FIG. 2 is an exploded perspective view of the table tap same as above. 3 is a cross-sectional view taken along the line AA in FIG. FIG. 4 is an exploded perspective view showing the back surface of the cover and various components. FIG. 5 is a perspective view showing a state in which various components are arranged on the back surface of the cover. FIG. 6 is a perspective view showing a pair of electrode members. FIG. 7 is a cross-sectional view taken along line BB in FIG. FIG. 8 is a perspective view showing a conductive member for grounding. FIG. 9A is a perspective view of the outlet block as viewed from below. FIG. 9B is a perspective view of the outlet block as viewed from above. FIG. 10 is a partial cross-sectional view taken along the line CC of FIG.

  Hereinafter, a table tap according to an embodiment of the present disclosure will be specifically described with reference to the drawings. Note that the configuration described below is merely an example of the present disclosure, and the present disclosure is not limited to the following embodiment. Therefore, various modifications can be made in accordance with the design and the like as long as the technical idea according to the present disclosure is not deviated from other embodiments.

  In the following description, unless otherwise specified, in FIGS. 1 to 10, as indicated by the arrows “up”, “down”, “left”, “right”, “front”, “back”, Define the bottom, left, right, front and back directions. Therefore, in the present embodiment, the longitudinal direction of the housing 3 is the front-rear direction, the lateral direction (width direction) of the housing 3 is the left-right direction, and the thickness direction of the housing 3 is the vertical direction. However, these directions are not intended to limit the use direction of the table tap 1. In addition, the arrows indicating the directions in the drawings are merely shown for explanation, and do not accompany the substance.

(Overview)
With reference to FIG. 1, the outline | summary of the table tap 1 of this embodiment is demonstrated (focusing on an external appearance). As shown in FIG. 1, the table tap 1 is a device that can insert the plug 200 and supplies power to the plug 200 that is inserted. The table tap 1 has three outlets 2 (also referred to as outlets). One insertion plug 200 can be inserted into each of the three outlets 2. That is, the table tap 1 can insert up to three plugs 200 at the same time. The number of outlets 2 (that is, the number of plugs 200 that can be simultaneously inserted into the table tap 1) is not limited to three. The plug 200 is connected to an end portion of the electric wire 201 drawn out from, for example, an electric device. The plug 200 includes a plurality of conductors 202 (a pair of electrodes 202a and 202b and one ground terminal 202c).

  The table tap 1 includes a housing 3. The housing 3 is an outer shell that houses various components 8 (see FIG. 2) of the table tap 1. The housing 3 has, for example, a substantially rectangular parallelepiped box shape extending in the front-rear direction, and includes an upper surface 31, a lower surface 32, a left side surface 33, a right side surface 34, a front side surface 35, and a rear side surface 36. In the present embodiment, the upper surface 31 and the lower surface 32 have, for example, an oval shape extending in the front-rear direction. The left side surface 33 and the right side surface 34 have a substantially rectangular shape extending in the front-rear direction. The front side surface 35 has a half-cylinder shape projecting forward (that is, a shape obtained by dividing a cylinder into vertical halves). The rear side surface 36 has a semi-cylindrical shape protruding rearward. For example, the lower surface 32 is formed to be slightly smaller than the upper surface 31. Accordingly, the left side surface 33, the right side surface 34, the front side surface 35, and the rear side surface 36 are inclined inward of the housing 3 from the upper surface 31 side toward the lower surface 32 side.

  The front side surface 35 is provided with a wire hole 4. A power cable 5 connected to an external power source is drawn into the housing 3 from the outside through the wire hole 4. The power cable 5 drawn into the housing 3 is connected to electrical components among various components 8 (see FIG. 2) housed in the housing 3.

  A cylindrical bush member B <b> 1 is provided between the wire hole 4 and the power cable 5. That is, the bush member B1 is inserted into the wire hole 4, and the power cable 5 is passed through the bush member B1. One end of the bush member B1 is exposed to the outside of the housing 3, and the other end of the bush member B1 is inserted into the housing 3. The bush member B1 has an outer diameter that increases from one end to the other end. The other end of the bush member B1 is provided with a flange B1a projecting to the outer periphery (see FIG. 2). The bush member B1 may be omitted.

  On the upper surface 31, three outlets 2 and a cutoff switch 6 are provided. That is, the housing 3 has three outlets 2. The three outlets 2 are arranged in one direction (for example, the longitudinal direction of the upper surface 31). Each of the three outlets 2 has a set of insertion holes 21. The set of insertion holes 21 (that is, one outlet 2) corresponds to one insertion plug 200. The set of insertion holes 21 has three insertion holes 21a, 21b, and 21c (that is, a pair of insertion holes 21a, 21b and an insertion hole 21c). Three conductors 202 (that is, a pair of electrodes 202a, 202b and one ground terminal 202c) of one insertion plug 200 are inserted into the set of three insertion holes 21a, 21b, 21c. The number of the set of insertion holes 21 is not limited to three, and can be determined according to the number of conductors 202 included in one insertion plug 200.

  Of the pair of three insertion holes 21a, 21b, and 21c, each of the pair of insertion holes 21a and 21b (first insertion hole) is inserted into each of the pair of electrodes 202a and 202b of the insertion plug 200. The insertion holes are arranged along the longitudinal direction of the upper surface 31. Therefore, the arrangement direction in which each of the pair of insertion holes 21a and 21b is arranged matches the arrangement direction in which the outlets 2 are arranged. The remaining one insertion hole 21c (second insertion hole) is an insertion hole into which the ground terminal 202c of the insertion plug 200 is inserted, and one side (for example, the left side) of the pair of insertion holes 21a and 21b in the left-right direction. Is arranged.

  In the table tap 1, the three conductors 202 (202a, 202b, 202c) of the insertion plug 200 are inserted into a set of three insertion holes 21a, 21b, 21c, whereby the table tap 1 and the insertion plug 200 are inserted. Are electrically connected to each other. As a result, power is supplied from the table tap 1 to the insertion plug 200.

  The cut-off switch 6 is a switch for manually switching the supply and stop of power from the table tap 1 to the plug 200 inserted into the table tap 1. When the cutoff switch 6 is on, power is supplied from the table tap 1 to the plug 200 that is inserted into the table tap 1. When the cutoff switch 6 is off, the power supply from the table tap 1 to the plug plug 200 inserted into the table tap 1 is stopped.

  The cutoff switch 6 has an overcurrent cutoff function. That is, the cutoff switch 6 can be manually switched on or off when a current less than a predetermined current value flows through the electrical components inside the table tap 1. On the other hand, the cutoff switch 6 is automatically switched from on to off when a current (ie, overcurrent) of a predetermined current value or more flows through the electrical components inside the table tap 1. Thereby, for example, when an overcurrent flows through the power cable 5, the overcurrent can be prevented from flowing into the plug 200 inserted into the table tap 1.

  The upper surface 31 is divided into a first region 37 and a second region 38. The first region 37 is a range from the rear end of the upper surface 31 to the center front side of the length in the longitudinal direction (that is, the front-rear direction) of the upper surface 31 (for example, two-thirds on the rear side of the upper surface 31). Range). The second region 38 is a range from the front end of the upper surface 31 to a position closer to the center front of the length in the longitudinal direction of the upper surface 31 (for example, a range of a third of the front side of the upper surface 31). The first region 37 is one step higher than the second region 38.

  A plurality (three) of outlets 2 (that is, a plurality (three) of insertion holes 21) are arranged in the longitudinal direction of the upper surface 31 (that is, the front-rear direction). In the present embodiment, the plurality of outlets 2 are arranged in the first region 37 of the upper surface 31, for example. The cutoff switch 6 is disposed in the second region 38 of the upper surface 31, for example.

  Thus, the table tap 1 receives power from the external power supply via the power cable 5. When the plug 200 is inserted into the outlet 2 of the table tap 1, the plug 200 and the table tap 1 are electrically connected. When the cut-off switch 6 is on, the plug plug 200 is inserted into the outlet 2 of the table tap 1, so that power is supplied from the table tap 1 to the plug plug 200. When the cutoff switch 6 is manually switched from on to off during the power supply, the power supply from the table tap 1 to the plug-in plug 200 is stopped. Further, when an overcurrent flows through the table tap 1, the cutoff switch 6 is automatically switched from on to off, and power supply from the table tap 1 to the plug-in plug 200 is stopped.

(Detailed explanation)
Next, the configuration of the table tap 1 will be described with reference to FIGS.

  As shown in FIG. 2, the table tap 1 includes a housing 3 and various components 8 housed in the housing 3. The housing 3 includes a body 40 and a cover 50. The body 40 has a box shape (for example, a box shape with a deep bottom) having an internal space 40f that accommodates various components 8, and has an opening 40a connected to the internal space 40f. The cover 50 is a member that closes the opening 40a of the body 40 and has, for example, a plate shape. The various components 8 include a pair of electrode members 10 </ b> A and 10 </ b> B, a grounding conductive member 12, a plurality of outlet blocks 13, and a cutoff switch 6.

(Body 40)
The body 40 will be described with reference to FIGS. 2 and 3. The body 40 is made of a thermoplastic resin such as a PCABS resin. As shown in FIG. 2, the body 40 has a substantially rectangular parallelepiped shape extending in the front-rear direction and has a box shape having an opening 40a on the upper surface. The body 40 includes a bottom wall 41, a left side wall 42, a right side wall 43, a front side wall 44, and a rear side wall 45.

  The outer surfaces (that is, the outer main surfaces) of the bottom wall 41, the left side wall 42, the right side wall 43, the front side wall 44, and the rear side wall 45 are the lower surface 32, the left side surface 33, the right side surface 34, and the front side surface 35. And a rear side surface 36. The left side wall 42, the right side wall 43, the front side wall 44 and the rear side wall 45 constitute a peripheral wall portion 46 of the body 40. An inner peripheral surface 46 b of the peripheral wall portion 46 is configured by the inner surfaces (that is, the inner main surfaces) of the left side wall 42, the right side wall 43, the front side wall 44, and the rear side wall 45. The upper edge of each of the left side wall 42, the right side wall 43, the front side wall 44, and the rear side wall 45 forms a peripheral edge 40b of the opening 40a. A space surrounded by the bottom wall 41, the left side wall 42, the right side wall 43, the front side wall 44, and the rear side wall 45 is an internal space 40f.

  The bottom wall 41 has a substantially rectangular plate shape (for example, an oval plate shape) that is long in the front-rear direction. The left side wall 42 and the right side wall 43 rise upward from both ends in the short direction (left-right direction) of the bottom wall 41. The front side wall 44 and the rear side wall 45 rise upward from both ends in the longitudinal direction (front-rear direction) of the bottom wall 41. For example, the front side wall 44 is curved in a semi-cylindrical shape protruding forward along the arc shape of the front end of the bottom wall 41. For example, the rear side wall 45 is curved in a semi-cylindrical shape protruding rearward along the arc shape of the rear end of the bottom wall 41. For example, the bottom wall 41 is formed to be slightly smaller than the opening 40a on the upper surface. Accordingly, the left side wall 42, the right side wall 43, the front side wall 44, and the rear side wall 45 are inclined toward the inside of the body 40 from the opening 40a side toward the bottom wall 41 side.

  The inner surface (upper surface) of the bottom wall 41 has a plurality of (for example, four) partition regions 15. The plurality of partition regions 15 are arranged in the longitudinal direction (front-rear direction) on the inner surface of the bottom wall 41. The cutoff switch 6 is arranged in one partition area 15 on the front side among the plurality of partition areas 15. The three rear partition areas 15 correspond one-to-one with the three outlets 2 of the cover 50, and the parts corresponding to the corresponding outlets 2 (the outlet block 12, the pair of receiving portions 70, the receiving portion 90, etc.) are arranged. Is done.

  The front wall 44 of the body 40 is provided with a wire hole 4 through which the power cable 5 passes. The wire hole 4 is provided, for example, in the center of the front side wall 44 and penetrates in the thickness direction of the front side wall 44. The outline of the opening of the wire hole 4 is, for example, a circle. The entire circumference of the outline of the opening of the wire hole 4 is closed. Since the entire circumference of the wire hole is closed, even if the wire hole is provided in the body, the strength and rigidity of the body can be prevented from being lowered by the wire hole.

  As shown in FIGS. 2 and 3, the peripheral edge 40b of the body 40 has an outer peripheral edge 40c and an inner peripheral edge 40d. The outer peripheral edge 40c is the outer half in the width direction of the peripheral edge 40b, and the inner peripheral edge 40d is the inner half in the width direction of the peripheral edge 40b. The inner peripheral edge 40d is one step lower than the outer peripheral edge 40c. As a result, a step 40e is formed between the outer peripheral edge 40c and the inner peripheral edge 40d. When the opening 40a of the body 40 is closed by the cover 50, an outer wall 51 described later of the cover 50 is caught on the inner peripheral edge 40d. As a result, the position of the cover 50 with respect to the depth direction of the body 40 is positioned at the position of the opening surface of the opening 40a. Furthermore, an outer wall 51 described later of the cover 50 comes into contact with the stepped portion 40e, and the cover 50 is positioned at a predetermined position on the opening surface of the opening 40a.

  As shown in FIG. 2, the body 40 is provided with a plurality of vertical ribs 60, a first clamping wall portion 61, a plurality of boss portions 62, and a plurality of protrusions 63.

  The plurality of (for example, eight) vertical ribs 60 are portions that reinforce the rigidity and strength of the body 40. The plurality of vertical ribs 60 are provided on the inner peripheral surface 46 b of the body 40. The plurality of vertical ribs 60 are arranged at intervals in the circumferential direction of the inner peripheral surface 46 b of the body 40. In the present embodiment, three are provided on the inner surface of the left side wall 42, three are provided on the inner surface of the right side wall 43, and two are provided on the inner surface of the front side wall 44. The three vertical ribs 60 of each of the left side wall 42 and the right side wall 43 are arranged along the boundary of the partition region 15 of the bottom wall 41, for example. The two vertical ribs 60 of the front side wall 44 are disposed on the left and right sides of the wire hole 4. Each vertical rib 60 is formed in a flat plate shape and protrudes from the inner peripheral surface 46 b of the body 40 to the inside of the body 40 vertically. Each vertical rib 60 extends from the peripheral edge 40 b of the body 40 to the bottom along the depth direction of the body 40.

  The first clamping wall 61 is a member that clamps the power cable 5 drawn into the body 40 from the outside through the wire hole 4 of the body 40 with a second clamping wall 53 described later of the cover 50. is there. In the present embodiment, the first sandwiching wall portion 61 and the second sandwiching wall portion 53 constitute the sandwiching portion 17 that sandwiches the power cable 5 that has passed through the wire hole 4. That is, the housing 3 has a holding portion 17 that holds the power cable 5 that has passed through the wire hole 4 in the internal space 40f. Thus, even if the power cable 5 is pulled outside the housing 3, the tension at that time can be stopped by the clamping unit 17. As a result, even when the power cable 5 is pulled, the connection between the various components 8 in the housing 3 and the power cable 5 can be prevented. Hereinafter, this effect is also referred to as tension stopper.

  The first clamping wall portion 61 is provided on the bottom side 41 of the body 40 on the back side of the wire hole 4 of the body 40 (that is, the back side of the front side wall 44). The first clamping wall portion 61 is provided in a wall shape so as to rise from the bottom wall 41 of the body 40. The height of the 1st clamping wall part 61 is the height between the lower end 4a of the opening of the hole 4 for electric wires, and the upper end 4b (refer FIG. 10). The first clamping wall portion 61 is provided so as to intersect (for example, orthogonally cross) a routing route in which the power cable 5 is routed (that is, in a direction extending in the width direction (left-right direction) of the bottom wall 41).

  The first clamping wall portion 61 has a plurality of (for example, two) first wall portions 61a. Each of the first wall portions 61a is arranged so as to intersect (for example, orthogonal to) the wiring path of the power cable 5 and to be spaced from each other in the thickness direction. Since the first clamping wall 61 is composed of a plurality of first walls 61a, the frictional resistance between the first clamping wall 61 and the power cable 5 can be increased. As a result, the effect of the tension stopper can be improved. Moreover, the pressure which acts on the power cable 5 from the 1st clamping wall part 61 can be disperse | distributed, and the burden to the power cable 5 can be reduced.

  A plurality of (for example, four) boss portions 62 are portions that fasten with a boss portion 54 described later of the cover 50 to fix the body 40 and the cover 50 to each other. The plurality of boss portions 62 are provided on the bottom wall 41 of the body 40 so as to protrude from the bottom wall 41 of the body 40 into the body 40. The plurality of boss portions 62 are provided so as to be dispersed throughout the bottom wall 41. For example, of the four boss portions 62, the two boss portions 62 are arranged at the center of the two boundaries that divide the rear three partition regions 15 among the four partition regions 15 of the bottom wall 41. . The remaining two boss portions 62a (62) (first boss portion) are provided at both ends of the first clamping wall portion 61 (that is, positions on both sides of the first clamping wall portion 61 in the lateral width direction (left-right direction)). And formed integrally with both end portions of the first clamping wall portion 61. As described above, the two boss portions 62a and both end portions of the first holding wall portion 61 are integrally formed, whereby the strength of the first holding wall portion 61 can be improved, and the effect of the tension stopper described above can be further improved. Can be made. In addition, the boss | hub part 62a may be provided only in one edge part of the both ends of the 1st clamping wall part 61. FIG.

  Each of the plurality of boss portions 62 is provided with a through hole 62b. The through hole 62b is a through hole through which the screw N1 passes. The screw N1 is a screw for fixing the body 40 and the cover 50 to each other. The through hole 62 b is provided along the central axis direction (vertical direction) of the boss portion 62. The through hole 62 b penetrates the boss portion 62 and the bottom wall 41 of the body 40 and connects the inside and the outside of the body 40.

  When the cover 50 closes the opening 40 a of the body 40, the plurality of (for example, nine) protrusions 63 press the lower surface of the outlet block 13 to position the outlet block 13 in the vertical direction in the body 40. It is a part to do. Each protrusion 63 is provided in a cylindrical shape, for example, so as to protrude from the inner surface of the bottom wall 41. A plurality (for example, three) of the plurality of (nine) protrusions 63 are provided in the rear three partition regions (that is, the partition region in which the outlet block 13 is disposed) among the four partition regions 15 of the bottom wall 41. ) Are arranged one by one.

  The vertical rib 60 will be described with reference to FIG. As shown in FIG. 3, the upper end portion 60 a of each vertical rib 60 is formed at a height between the outer peripheral edge portion 40 c and the inner peripheral edge portion 40 d of the peripheral edge portion 40 b of the body 40. The upper end portion 60 a of each vertical rib 60 is provided with a recess 60 b into which an outer wall portion 51 described later of the cover 50 is fitted. The bottom of the recess 60b is flat and connected to the inner peripheral edge 40d of the body 40. Thereby, when the cover 50 closes the opening 40 a of the body 40, the lower end of the outer wall 51 described later of the cover 50 comes into contact with the bottom of the recess 60 b of the vertical rib 60. As a result, the position of the cover 50 with respect to the depth direction of the body 40 is positioned at the position of the opening surface of the opening 40a. Further, the outer wall 51 described later of the cover 50 contacts the inner side surface of the recess 60b, so that the position of the cover 50 on the opening surface of the opening 40a is positioned at a predetermined position.

  The upper part G1 of the inner peripheral surface 46b of the body 40 is perpendicular to the bottom wall 41 of the body 40, but the lower part G2 of the inner peripheral surface 46b of the body 40 is such that the peripheral wall part 46 of the body 40 is on the inner side of the body 40. Is inclined toward the inner side of the body 40. That is, the lower part G2 of the inner peripheral surface 46b of the body 40 is inclined toward the inner side of the body 40 toward the lower end of the inner peripheral surface 46b. Accordingly, the upper portion 60e of the vertical rib 60 extends perpendicular to the bottom wall 41, but the lower portion 60f of the vertical rib 60 extends along the lower portion G2 of the inner peripheral surface 46b of the body 40. Inclined to the inside. Thereby, even if the lower part G2 of the inner peripheral surface 46b of the body 40 is inclined toward the inner side of the body 40, the width of the lower part 60f of the vertical rib 60 (that is, the width in the left-right direction) can be secured at a constant width. The strength and rigidity of the rib 60 can be ensured.

(Cover 50)
The cover 50 will be described with reference to FIGS. 2 and 3.

  The cover 50 is formed of a thermoplastic resin such as a polycarbonate resin. As shown in FIG. 2, the cover 50 has a substantially rectangular (eg, oval) plate shape extending in the front-rear direction. The outer surface (that is, the outer main surface) of the cover 50 is the upper surface 31 of the housing 3.

  The cover 50 has substantially the same shape and size as the opening 40a of the body 40 (more specifically, the shape is the same and slightly smaller than the opening 40a). The outer peripheral portion 50a of the cover 50 can be fitted inside the opening 40a of the body 40 (see FIG. 1). By fitting the outer peripheral portion 50 a of the cover 50 inside the opening 40 a of the body 40, the opening 40 a is closed by the cover 50. Thus, the outer peripheral portion 50a of the cover 50 is protected by the body 40 by fitting the outer peripheral portion 50a of the cover 50 inside the opening 40a of the body 40.

  The cover 50 is provided with a plurality of outlets 2 and an exposure window 18 through which the cutoff switch 6 is exposed. As described above, each of the plurality of outlets 2 has a set of insertion holes 21 (that is, three insertion holes 21a, 21b, and 21c). Therefore, the cover 50 is provided with a plurality of (for example, three) insertion holes 21. The plurality of sets of insertion holes 21 and the exposure windows 18 penetrate the cover 50 in the thickness direction. The plurality of sets of insertion holes 21 (that is, the plurality of outlets 2) are provided in the first region 37 on the outer surface of the cover 50 as described above, and are arranged along the longitudinal direction of the cover 50. The exposure window 18 has, for example, a rectangular shape, and is provided in a predetermined area (for example, the right half area) in the second area 38 on the outer surface of the cover 50.

  As shown in FIG. 4, the back surface 50 b of the cover 50 includes an outer wall portion 51, an inner wall portion 52, a second sandwiching wall portion 53, a plurality of boss portions 54, a plurality of positioning portions 55, and a plurality of positioning portions 55. The temporary fixing portion 56 and a plurality of placement wall portions 57 are provided.

  The back surface 50 b of the cover 50 has a plurality of (for example, four) partition regions 20. The plurality of partition regions 20 are arranged in the longitudinal direction on the back surface 50 b of the cover 50. Of the plurality (for example, four) of divided areas 20, an exposed window 18 is provided in one front divided area 20, and the cutoff switch 6 is disposed. The three rear partition areas 20 correspond to the three outlets 2 of the cover 50 on a one-to-one basis and are also paired with the rear three partition areas 15 of the four partition areas 15 on the bottom wall 41 of the body 40. Corresponding to one. A set of insertion holes 21 (that is, three insertion holes 21a, 21b, and 21c) is provided in each of the three rear partition areas 20, and the outlet block 13 is disposed.

  The second sandwiching wall portion 53 is a member for sandwiching the power cable 5 with the first sandwiching wall portion 61 of the body 40. The power cable 5 is a power cable drawn into the body 40 from the outside through the wire hole 4 of the body 40.

  The power cable 5 has a plurality of (for example, three) electric wires 5a, 5b, and 5c and an exterior 5d. Each electric wire 5a, 5b, 5c is a covered electric wire. The exterior 5d is a member that bundles and covers the electric wires 5a, 5b, and 5c. The electric wire 5a is electrically connected to the electrode member 10A, the electric wire 5b is electrically connected to the electrode member 10B, and the electric wire 5c is electrically connected to the conductive member 12. From the end portion of the exterior 5d of the power cable 5, the electric wires 5a, 5b, 5c inside the exterior 5d are drawn out to the same length. That is, each electric wire 5a-5c has the part (leading electric wire part 5a1, 5b1, 5c1) pulled out from the exterior 5d of the power cable 5 by the same length.

  The second clamping wall portion 53 is provided in the vicinity of the front end of the back surface 50b of the cover 50 (that is, a position retracted backward by a certain distance from the front end). The second clamping wall portion 53 is provided in a wall shape so as to rise from the back surface 50 b of the cover 50. The second clamping wall portion 53 is provided so as to intersect (for example, orthogonally cross) the routing route in which the power cable 5 is routed (in other words, along the width direction (left-right direction) of the cover 50). .

  The second clamping wall portion 53 is formed at a predetermined height. The predetermined height is, for example, that when the cover 50 closes the opening 40a of the body 40, the distal end portion of the second clamping wall portion 53 is disposed between the upper end 4b and the lower end 4a of the opening of the wire hole 4. To the height. That is, when the cover 50 closes the opening 40 a of the body 40, the height of the second clamping wall 53 is determined so that the power cable 5 is moderately connected between the first clamping wall 61 and the second clamping wall 53. It is a height that can be clamped with a certain pressure.

  The second clamping wall portion 53 has a plurality of (for example, two) second wall portions 53a. Each 2nd wall part 53a cross | intersects the wiring path | route of the power cable 5 (for example, orthogonal), and is arrange | positioned at intervals in the mutual thickness direction. Since the second clamping wall portion 53 is composed of a plurality of second wall portions 53a, the frictional resistance between the second clamping wall portion 53 and the power cable 5 can be increased. The effect of can be improved. Moreover, the pressure which acts on the power cable 5 from the 2nd clamping wall part 53 can be disperse | distributed, and the burden to an electric wire can be reduced.

  Boss portions 54a (second boss portions), which will be described later, are provided at both end portions of the second sandwiching wall portion 53 (that is, positions on both sides in the lateral width direction (left-right direction) of the second sandwiching wall portion 53). Both end portions of the second clamping wall portion 53 and the boss portion 54a are integrally formed. As described above, the two boss portions 54a and the both end portions of the second holding wall portion 53 are integrally formed, whereby the strength of the second holding wall portion 53 can be improved, and the effect of the above-described tension stopper is further improved. it can. Note that the boss portion 54 a may be provided only at one end portion of the both end portions of the second holding wall portion 53.

  The outer wall portion 51 and the inner wall portion 52 are portions that reinforce the rigidity and strength of the cover 50. The outer wall portion 51 and the inner wall portion 52 are provided so as to rise from the back surface 50 b of the cover 50. The outer wall portion 51 is provided over the entire circumference (that is, the entire circumferential direction) of the periphery of the back surface 50 b of the cover 50. The inner wall portion 52 is provided along the circumferential direction of the cover 50 at a distance from the outer wall portion 51 inside the outer wall portion 51.

  Both end portions of the inner wall portion 52 are integrally connected to both end portions of the second holding wall portion 53. That is, the second clamping wall portion 53 functions as a part of the inner wall portion 52. Therefore, the inner side wall part 52 is provided over the whole circumferential direction of the back surface 50b of the cover 50 including the second clamping wall part 53. In addition, although the inner wall part 52 and the 2nd clamping wall part 53 are mutually the same height, a mutually different height may be sufficient.

  As described above, the outer wall 51 and the inner wall 52 are formed over the entire circumferential direction of the cover 50, whereby the strength and rigidity of the cover 50 are further improved.

  The height of the inner wall portion 52 is higher than the height of the outer wall portion 51. Thereby, the strength and rigidity of the cover 50 can be improved without the outer wall portion 51 and the inner wall portion 52 interfering with the inner peripheral surface (that is, the inner peripheral surface inclined inward) 46b of the body 40. The height of the inner wall portion 52 is the height of the inner wall portion 52 with respect to the back surface 50b of the cover 50, and the height of the outer wall portion 51 is the height of the inner wall portion 52 with respect to the back surface 50b of the cover 50. is there.

  The plurality of (for example, four) boss portions 54 are portions that fasten with the boss portion 62 of the body 40 and fix the body 40 and the cover 50 to each other. The plurality of boss portions 54 are provided so as to protrude from the back surface 50 b of the cover 50. The plurality of boss portions 54 are provided so as to be distributed over the entire back surface 50 b of the cover 50. For example, of the four boss portions 54, the two boss portions 54 are arranged at the center of two boundaries that divide the rear three partition regions 20 of the four partition regions 20 on the back surface 50 b of the cover. Yes. The remaining two boss portions 54a (54) are provided at both end portions of the second clamping wall portion 53 (that is, positions on both sides in the lateral width direction (left-right direction) of the second clamping wall portion 53). It is formed integrally with both end portions of the wall portion 53. As described above, the two boss portions 54a and the both end portions of the second holding wall portion 53 are integrally formed, whereby the strength of the second holding wall portion 53 can be improved, and the effect of the above-described tension stopper is further improved. Can be made.

  Each boss portion 54 is provided with a bottomed screw hole 54b. The screw hole 54b is a hole into which the screw N1 is screwed. The screw N1 is a screw for fixing the body 40 and the cover 50 to each other. The screw hole 54 b is provided along the central axis direction (vertical direction) of the boss portion 54.

  A plurality of (for example, nine) positioning portions 55 are portions for positioning the position of the outlet block 13 on the back surface 50 b of the cover 50. The outlet block 13 is a member that holds receiving portions 70A, 70B, and 90 described later.

  A plurality (for example, three) of the positioning portions 55 are arranged in the rear three partition regions (that is, the partition regions where the outlet block 13 is disposed) 20 among the four partition regions 20 on the back surface 50b of the cover 50 (for example, three). Are arranged one by one. For example, in each partition area 20, three positioning portions 55 are provided one by one near the three corners of the four corners of the partition area 20.

  Each positioning part 55 has a cylinder part (for example, cylindrical part) 55a and a placement wall part 55b. The cylindrical portion 55a is a portion that fits into a positioning hole 134 of the outlet block 13 described later. The placement wall portion 55b is a portion on which a later-described outlet block 13 is placed. The mounting wall portion 55b is provided along the radial direction of the cylindrical portion 55a on the outer periphery of the cylindrical portion 55a. The height of each placement wall 55b is formed to be the same height as the lower half portion of the cylindrical portion 55a.

  A plurality of (for example, three) temporary fixing portions 56 (56a, 56b, 56c) are portions for temporarily fixing the power cable 5 or the electric wires 5a, 5c to the back surface 50b of the cover 50. Each temporary fixing portion 56 is provided in a wall shape so as to rise from the back surface 50 b of the cover 50.

  The temporary fixing portion 56 a is provided along the longitudinal direction (front-rear direction) of the cover 50 at a distance from the exposure window 18 on the rear side of the second clamping wall portion 53 and on the side of the exposure window 18. . As a result, the temporary fixing portion 56a sandwiches the power cable 5 across the second clamping wall portion 53 with the cutoff switch 6 on the rear side of the second clamping wall portion 53, and attaches it to the back surface 50b of the cover 50. Temporarily fix.

  The temporary fixing portion 56b is provided at a distance from the exposure window 18 along one corner (rear left corner) of the four corners of the exposure window 18. Thereby, the temporary fixing portion 56b temporarily fixes the electric wire 5a to the back surface 50b of the cover 50 with the electric wire 5a sandwiched between the corner portions of the cutoff switch 6.

  The temporary fixing portion 56c is more slack than the other electric wires 5a and 5b by routing the electric wire 5c connected to the earth conductive member 12 to the conductive member 12 among the electric wires 5a to 5c. It is temporarily fixed to the back surface 50b of the cover 50 so as to decrease. The temporary fixing portion 56c is provided, for example, at a position shifted to one side (for example, the left side) in a direction (left-right direction) intersecting the temporary fixing portion 56a.

  Thereby, when the power cable 5 is pulled, the grounding wire 5c among the plurality of wires 5a to 5c in the power cable 5 can be pulled first with the tension at that time. Thereby, it can prevent that the other electric wires 5a and 5b cut | disconnect initially with said tension | tensile_strength. Moreover, the length of the lead wire part (part pulled out from the power supply cable 5) of each electric wire 5a-5c is made the same, and by the loosening method by the temporary fixing part 56 of the lead wire part of each electric wire 5a-5c, The order in which the electric wires 5a to 5c are cut can be set.

  The plurality of placement wall portions 57 are portions on which the outlet block 13 is placed. Each placement wall portion 57 is provided in a wall shape so as to rise from the back surface 50 b of the cover 50. Each placement wall portion 57 is provided at an appropriate position overlapping the outlet block 13 on the back surface 50 b of the cover 50.

(Electrode members 10A and 10B)
Next, with reference to FIGS. 4-6, a pair of electrode member 10A, 10B is demonstrated.

  As shown in FIGS. 4 to 6, each of the pair of electrode members 10 </ b> A and 10 </ b> B has a one-to-one correspondence with each of the pair of electrodes 202 a and 202 b of the insertion plug 200. Each of the pair of electrode members 10 </ b> A and 10 </ b> B is electrically connected to a corresponding electrode of the pair of electrodes 202 a and 202 b of the insertion plug 200 inserted into the outlet 2. Each electrode member 10A, 10B is formed of a conductive member (for example, a metal, more specifically, a copper alloy, for example).

  The pair of electrode members 10A and 10B includes a plurality of pairs (for example, three pairs) of receiving portions 70 and a pair of lead portions 80A and 80B. Two receiving portions 70A and 70B (first receiving portions) in each pair of the plurality of pairs of receiving portions 70 correspond to the pair of electrode members 10A and 10B on a one-to-one basis. Hereinafter, the two receiving portions 70A and 70B in the pair are also referred to as a pair of receiving portions 70A and 70B. The pair of lead portions 80A and 80B (first lead portion) also correspond to the pair of electrode members 10A and 10B on a one-to-one basis. Therefore, the two receiving portions 70A and 70B in each pair correspond one-to-one with the pair of lead portions 80A and 80B.

  The electrode member 10A has a plurality of corresponding receiving portions 70A and a corresponding lead portion 80A. The electrode member 10B has a plurality of corresponding receiving portions 70B and a corresponding lead portion 80B. A pair of receiving portions 70A and 70B is provided for each outlet 2.

  In the electrode member 10A, a plurality of corresponding receiving portions 70A and a corresponding lead portion 80A are formed of different members. Similarly, in the electrode member 10B, a plurality of corresponding receiving portions 70B and a corresponding lead portion 80B are formed of different members. A plurality of corresponding receiving portions 70A and 70B and corresponding lead portions 80A and 80B are coupled by a well-known coupling method (for example, dowel caulking).

  The plurality of pairs (three pairs) of receiving portions 70 correspond to the plurality of (three) outlets 2 on a one-to-one basis, and are electrically connected to the pair of electrodes 202 a and 202 b of the plug 200 inserted into the corresponding outlet 2. It is a member to be connected. The pair of receiving portions 70 </ b> A and 70 </ b> B correspond one-to-one to the pair of electrodes 202 a and 202 b of the insertion plug 200, and are electrically connected to the corresponding electrodes of the pair of electrodes 202 a and 202 b of the insertion plug 200. . The plurality of pairs (three pairs) of the receiving portions 70 correspond to the rear three partition areas 20 of the four partition areas 20 on the back surface 50 b of the cover 50, and are arranged in the corresponding partition areas 20. The

  The pair of receiving portions 70A and 70B are arranged at intervals in the front-rear direction. That is, the direction in which each of the pair of receiving portions 70A and 70B is aligned corresponds to the direction in which the three outlets 2 are aligned (front-rear direction). In other words, the direction in which each of the pair of receiving portions 70A and 70B is arranged and the direction in which the three outlets 2 are arranged are one direction.

  The receiving portions 70A and 70B are formed in the same shape and size. In other words, the receiving portions 70A and 70B are formed as common parts. Therefore, the receiving part 70A and the receiving part 70B in the same pair are of course formed in the same shape and size as each other in the receiving part 70A and the receiving part 70B included in different pairs.

  Each of the pair of lead portions 80A, 80B is connected to a corresponding receiving portion 70A, 70B of the plurality of pairs of receiving portions 70. Corresponding electric wires 5a and 5b are electrically connected to each of the pair of lead portions 80A and 80B. Each of the pair of lead portions 80A and 80B is formed in the same shape and size. That is, each of the pair of lead portions 80A and 80B is formed as a common part. Through holes 80Aa and 80Ba to which the electric wires 5a and 5e are connected are provided at the front end portions of the pair of lead portions 80A and 80B. The electric wire 5 e is an electric wire that is electrically connected to the electric wire 5 b via the cutoff switch 6.

  As shown in FIG. 6, each lead part 80A, 80B has a plurality of coupling regions 80Ab, 80Bb to which a corresponding plurality of receiving parts 70A, 70B are coupled. The plurality of coupling regions 80Ab and 80Bb are formed in the lead portions 80A and 80B so as to be spaced apart from each other in the longitudinal direction. As described above, since the lead portions 80A and 80B are formed in the same shape and size, the arrangement of the coupling regions 80Ab and 80Bb in the lead portions 80A and 80B is also the same.

  As shown in FIG. 5, the lead portions 80 </ b> A and 80 </ b> B are disposed on the back surface 50 b of the cover 50. In this arrangement state, the lead portions 80A and 80B are arranged along the longitudinal direction (front-rear direction) of the cover 50. In addition, the lead portions 80A and 80B are arranged at intervals in the left-right direction of the cover 50. Further, the lead portions 80A and 80B are arranged so that their mutual arrangements are shifted in the longitudinal direction. For example, the lead part 80B is arranged so as to be shifted forward from the lead part 80A. In addition, the directions of the shapes of the lead portions 80A and 80B are aligned in the same direction. The direction of the shape of each lead part 80A, 80B is, for example, the direction in which each lead part 80A, 80B extends and the front and back of each lead part 80A, 80B.

  Further, the lead portions 80A and 80B are arranged so as to be biased toward one side (for example, the right side) in the left-right direction on the back surface 50b of the cover 50. Thereby, in the back surface 50b of the cover 50, the space which arrange | positions the electrically conductive member 12 for earth | ground is ensured on the other side (for example, left side) of the left-right direction.

  A plurality of receiving portions 70A are coupled to one lead portion 80A, and a plurality of receiving portions 70B are coupled to the other lead portion 80B. In one lead portion 80A, since the receiving portion 70A is coupled to each coupling region 80Ab of the lead portion 80A, the receiving portion 70A is disposed at a distance from each other in the longitudinal direction of the lead portion 80A. Further, in one lead portion 80A, each receiving portion 70A is disposed so as to protrude to the other lead portion 80B side and to protrude above both lead portions 80A and 80B. Similarly, in the other lead portion 80B, the receiving portions 70B are arranged at intervals in the longitudinal direction of the lead portion 80B. Further, in the other lead portion 80B, each receiving portion 70B is disposed so as to protrude to the one lead portion 80A side and to protrude above the both lead portions 80A and 80B.

  The plurality of pairs of receiving portions 70 are arranged at intervals in the longitudinal direction of the pair of lead portions 80A and 80B. Each of the pair of receiving portions 70A and 70B is also arranged at a distance from each other in the longitudinal direction of the pair of lead portions 80A and 80B. The plurality of pairs of receiving portions 70 are disposed so as to protrude between the pair of lead portions 80A and 80B and above the pair of lead portions 80A and 80B. Each pair of receiving portions 70 is disposed on the back side of the corresponding partition region 20 on the back surface 50 b of the cover 50. Further, the two receiving portions 70A and 70B in each pair are arranged on the back side (lower side) of each of the pair of insertion holes 21a and 21b provided in the corresponding partition region 20.

  With reference to FIG. 6, the shape of each lead part 80A, 80B and the shape of each receiving part 70A, 70B will be described.

  As shown in FIG. 6, each lead part 80A, 80B is formed in the strip | belt-plate shape extended in the front-back direction, for example. The thickness direction of each lead part 80A, 80B corresponds to the up-down direction (that is, the insertion / removal direction of the plug 200). That is, the main surfaces on both sides of each of the lead portions 80A and 80B spread in the front-rear and left-right directions.

  Each lead portion 80A, 80B is provided with a plurality of recesses 81. Each recess 81 is provided in each lead part 80A, 80B at a portion adjacent to the unconnected receiving part among the two receiving parts 70A, 70B in each pair. The recess 81 can further secure an insulation distance between the lead portion 80A and the receiving portion 70B not connected to the lead portion 80A. Similarly, the recess 81 can further secure an insulation distance between the lead portion 80B and the receiving portion 70A not connected to the lead portion 80B.

  More specifically, the concave portions 81 are alternately provided on the left and right side surfaces of the lead portion 80A along the longitudinal direction of the lead portion 80A. That is, a plurality of recesses 81 are provided on the left side surface of the lead portion 80A at intervals from each other along the longitudinal direction of the lead portion 80A. A plurality of recesses 81 are spaced apart from each other along the longitudinal direction of the lead portion 80A on the right side surface of the lead portion 80A, and adjacent to the interval between the recess portions 81 on the left side surface of the lead portion 80A. , Provided. The same applies to each recess 81 of the lead portion 80B.

  A plurality of coupling regions 82 are formed on the upper surface of the lead portion 80A. Each coupling region 82 is formed at an interval in the longitudinal direction on the upper surface of the lead portion 80A. More specifically, the coupling regions 82 are formed at regular intervals from each other so as not to overlap the concave portions 81 on the upper surface of the lead portion 80A. In the present embodiment, each coupling region 82 is provided between every two concave portions 81 alternately arranged on the left and right sides of the lead portion 80A along the front-rear direction of the lead portion 80A. Is formed. The same applies to each coupling region 82 of the lead portion 80B.

  The receiving portion 70A coupled to each coupling region 82 of the one lead portion 80A protrudes toward the other lead portion 80B and is disposed above the upper surfaces of both the lead portions 80A and 80B. Each coupling region 82 of one lead portion 80A is disposed in front of one of the plurality of recesses 81 provided in the other lead portion 80B. Accordingly, the receiving portion 70A coupled to each coupling region 82 of the one lead portion 80A is disposed in the vicinity of the front surface of one of the plurality of recesses 81 provided in the other lead portion 80B. . Thus, the recess 81 provided in the lead portions 80A and 80B further secures an insulation distance between the lead portions 80A and 80B and the receiving portions 70B and 70A not connected to the lead portions 80A and 80B. The

  Two coupling portions 82a are provided in each coupling region 82 of the lead portion 80A. The two protrusions 82a fit into two coupling holes 74a of a coupling portion 74 described later of the receiving portion 70A coupled to the coupling region 82. In a state where the two protrusions 82a are fitted in the two coupling holes 74a, the two protrusions 82a are crushed so that the coupling part 74 and the coupling region 82 are coupled. That is, the receiving portion 70A and the lead portion 80A are coupled. Similarly, two protrusions 82a are provided in each coupling region 82 of the lead portion 80B.

  Reinforcing ribs 83 are provided on the lead portions 80A and 80B. The reinforcing rib 83 protrudes from one main surface (for example, the upper surface) of the main surfaces on both sides of the lead portions 80A and 80B, and is formed along the longitudinal direction of the lead portions 80A and 80B. The reinforcing rib 83 is not formed in each coupling region 82 of each lead part 80A, 80B. For example, the reinforcing rib 83 is extruded from the other main surface (for example, the lower surface) of the main surfaces on both sides of the lead portions 80A and 80B to the one main surface (for example, the upper surface) side (for example, by press working). ).

  A connection hole 84 to which the electric wires 5a and 5e are electrically connected is provided at the front end of each of the lead portions 80A and 80B. The front end portions of the lead portions 80A and 80B are stepped up. As described above, the front end portions of the lead portions 80A and 80B are raised in a stepped shape, so that the front end portions of the lead portions 80A and 80B are formed at a height suitable for connecting the electric wires 5a and 5e. .

  As shown in FIGS. 6 and 7, each of the receiving portions 70 </ b> A and 70 </ b> B includes a plurality of (for example, three) elastic piece portions 71, a support portion 72 that supports the plurality of elastic piece portions 71, a connecting portion 73, And a coupling portion 74.

  Each of the receiving portions 70A and 70B is electrically connected to the corresponding electrodes 202a and 202b by sandwiching the corresponding electrodes 202a and 202b of the insertion plug 200 with, for example, three elastic piece portions 71. Of the three elastic piece portions 71, for example, the two elastic piece portions 71a on both the left and right sides are arranged, for example, with their main surfaces facing each other and spaced apart from each other. Of the three elastic piece portions 71, the remaining one elastic piece portion 71b has, for example, its main surface facing the side of the two elastic piece portions 71a and spaced from the two elastic piece portions 71a. Has been placed.

  Each of the receiving portions 70A and 70B is arranged so that the tips (upper portions) of the three elastic piece portions 71 face the cover 50 side (that is, the upper side). By forming the three elastic piece portions 71 in this way, the corresponding electrodes 202a, between the two elastic piece portions 71a or between the two elastic piece portions 71a and the remaining one elastic piece portion 71b, 202b can be elastically sandwiched. Each of the receiving portions 70A and 70B can be integrally formed by bending a metal plate shaped from a developed view of the receiving portions 70A and 70B, for example.

  For example, the support portion 72 is formed in a substantially U-shaped peripheral wall shape that surrounds three of the four sides and opens the other one. The support portion 72 is integrally connected to the base ends of the three elastic piece portions 71 at three positions in the longitudinal direction on the substantially U-shaped tip side (upper side).

  The connecting portion 73 is a portion that connects the support portion 72 and the coupling portion 74. The connecting portion 73 extends downward from a portion adjacent to the corresponding lead portions 80A and 80B in the substantially U-shaped base end side (lower side) of the support portion 72 and bends toward the corresponding lead portions 80A and 80B. Then, it is connected to the coupling portion 74. That is, the connecting portion 73 is formed to be bent in a substantially L shape when viewed from the longitudinal direction (front-rear direction) of the lead portions 80A and 80B.

  The coupling portion 74 is a portion that couples with the coupling region 82 of each of the lead portions 80A and 80B. The coupling portions 74 of the receiving portions 70A and 70B are coupled to the coupling regions 82 of the corresponding lead portions of the lead portions 80A and 80B. The coupling portion 74 is formed in a plate shape that is substantially the same shape and size as the coupling regions 82 of the lead portions 80A and 80B. The coupling portion 74 is provided with a plurality (for example, two) of coupling holes 74a (see FIG. 6). The plurality of coupling holes 74a of the coupling portion 74 are holes into which the plurality of protrusions 82a of the coupling regions 82 of the lead portions 80A and 80B are fitted. When the projection 82a is crushed in a state where the projection 82a is fitted in the coupling hole 74a, the coupling portion 74 and the coupling region 82 are coupled. That is, the receiving portions 70A and 70B and the lead portions 80A and 80B are coupled.

  As shown in FIG. 7, as described above, the connecting portions 73 of the receiving portions 70A and 70B are formed in a substantially L shape, so that the receiving portions 70A and 70B are connected to the upper surfaces 80a of the lead portions 80A and 80B. Can also be arranged on the upper side with a gap K1. Thereby, each receiving part 70A, 70B can be arrange | positioned at intervals K1 above the upper surface 80a of lead part 80B, 80A which is not couple | bonded with each receiving part 70A, 70B. As a result, the distance K1 can further secure an insulation distance between the lead portions 80A and 80B and the receiving portions 70B and 80A that are not coupled to the lead portions 80A and 80B. The interval K1 is an interval in the vertical direction (removal direction of the plug 200) between the lead portions 80A and 80B and the receiving portions 70B and 70A not coupled to the lead portions 80A and 80B.

(Electrically conductive member 12)
Next, the grounding conductive member 12 will be described with reference to FIG.

  The conductive member 12 is a member that is electrically connected to the ground terminal 202 c of the plug 200 inserted into the outlet 2. The conductive member 12 is formed of a conductive member (for example, metal, more specifically, brass, for example).

  The conductive member 12 includes a plurality of receiving portions 90 (second receiving portions), a lead portion 91 (second lead portion), a plurality of connecting portions 92, and one or more connecting portions 93. The conductive member 12 is integrally formed. The conductive member 12 can be integrally formed, for example, by bending a metal plate shaped from a developed view of the conductive member 12.

  The plurality of (for example, three) receiving portions 90 correspond to the plurality (three) of outlets 2 on a one-to-one basis, and are electrically connected to the ground terminal 202c of the plug 200 inserted into the corresponding outlet 2. It is a member. The plurality of receiving portions 90 correspond one-to-one to the rear three partition regions 20 among the four partition regions 20 on the back surface 50 b of the cover 50.

  Each receiving portion 90 has a plurality of (for example, two) elastic piece portions 90a. Each receiving part 90 is electrically connected to the grounding terminal 202c by sandwiching the grounding terminal 202c of the plug 200 with two elastic piece parts 90a. The two elastic piece portions 90a are arranged with their main surfaces facing each other and spaced apart from each other. The base ends (lower ends) of the two elastic piece portions 90a are bent in the opposite directions and connected to each other. Each receiving portion 90 is disposed so that the tips (upper portions) of the two elastic piece portions 90a face the side (upper side) into which the ground terminal 202c is inserted.

  The lead portion 91 is a portion that supports the plurality of receiving portions 90 and is electrically connected to the electric wire 5c. The lead portion 91 is formed, for example, in a strip shape extending in the front-rear direction. The thickness direction of the conductive member 12 coincides with the left-right direction. That is, the main surfaces on both sides of the conductive member 12 extend in the front-rear and up-down directions. The plurality of connecting portions 92 are portions that connect the plurality of receiving portions 90 and the lead portions 91, and correspond to the plurality of receiving portions 90 on a one-to-one basis.

  The plurality of receiving portions 90 are connected to each other through corresponding connecting portions 92 at intervals in the longitudinal direction of the lead portion 91. Each receiving portion 90 is disposed on one side (for example, the right side) of the left and right sides of the lead portion 91. Each connecting portion 92 extends from the lower side portion of the lead portion 91 below the lead portion 91, bends toward the receiving portion 90, and is connected to the lower end of the receiving portion 90.

  One or more (for example, three) connection portions 93 are portions to which the electric wires 5c are electrically connected. Each connection portion 93 is provided with a connection hole 93a to which the electric wire 3c is connected. The connection portions 93 are provided at intervals from each other along the longitudinal direction of the lead portion 91. Each connection part 93 is formed in, for example, a piece, and protrudes from the lower side part of the lead part 91 to one side (for example, the right side) of the left and right sides of the lead part 91. In this embodiment, the electric wire 5c is electrically connected to the connection part 93 of the front end among the three connection parts 93, for example.

  As shown in FIG. 5, the conductive member 12 is disposed on the back surface 50 b of the cover 50. The conductive member 12 is disposed adjacent to the electrode member 10B (that is, adjacent to the side opposite to the electrode member 10A) and spaced from the electrode member 10B. Accordingly, the electrode member 10A, the electrode member 10B, and the conductive member 12 are disposed so as to extend in the front-rear direction and to be spaced from each other in the left-right direction.

  In this arrangement state, the lead portion 91 of the conductive member 12 is arranged along the longitudinal direction (front-rear direction) of the cover 50. The lead portion 91 is disposed on the back surface 50b of the cover 50, for example, in a space on the left side of the two electrode members 10A and 10B. Each receiving portion 90 of the conductive member 12 is disposed in the corresponding partition region 20 on the back surface 50 b of the cover 50. Each receiving part 90 is arrange | positioned at the back side (lower side) of the insertion hole 21c of the division area 20 corresponding. The insertion hole 21c is a hole into which the ground terminal 202c of the insertion plug 200 is inserted.

(Outlet block 13)
Next, the outlet block 13 will be described with reference to FIGS. 9A, 9B and 5.

  As shown in FIGS. 9A and 9B, the plurality of (for example, three) outlet blocks 13 correspond one-to-one to the plurality (for example, three) outlets 2 and a pair of receiving portions 70 corresponding to the corresponding outlets 2. (70A, 70B) and a portion for holding the receiving portion 90. In other words, each of the plurality of outlet blocks 13 is provided for each of the plurality of outlets 2. The plurality of outlet blocks 13 correspond to the rear three partition areas 20 among the four partition areas 20 on the back surface 50b of the cover 50, and are arranged in the corresponding partition areas 20 (see FIG. 5). .

  Each outlet block 13 is formed in the same shape and size. That is, each outlet block 13 is formed as a common part. Each outlet block 13 is formed in a substantially rectangular parallelepiped shape, for example. Each outlet block 13 is made of, for example, a thermosetting resin such as a urea resin.

  Each outlet block 13 is provided with three accommodating portions 100a, 100b, and 100c. Of the three accommodating portions 100a to 100c, each of the pair of accommodating portions 100a and 100b (first accommodating portion) accommodates each of the pair of receiving portions 70A and 70B. The remaining one accommodating portion 100c (second accommodating portion) accommodates the receiving portion 90.

  Each accommodating part 100a, 100b is formed in a substantially rectangular parallelepiped hollow shape, for example, penetrates the outlet block 13 in the vertical direction, and has an opening on each of the upper surface and the lower surface of the outlet block 13. Each accommodating part 100a, 100b is provided in the outlet block 13 at intervals in the front-rear direction.

  A plurality of (for example, three) hooking portions 101 are provided on the inner peripheral surface of the accommodating portion 100a. Each hooking portion 101 is provided on the inner peripheral surface of the accommodating portion 100a at the peripheral edge on the lower opening side of the accommodating portion 100a. Each hooking part 101 protrudes toward the inside of the accommodating part 100a. Each hooking portion 101 prevents the receiving portion 70A housed in the housing portion 100a from coming out of the housing portion 100a. Similarly, a plurality of (for example, three) hooking portions 101 are also provided on the inner peripheral surface of the accommodating portion 100b.

  The accommodating part 100c is formed in, for example, a substantially rectangular parallelepiped shape, and is formed in a concave shape toward the lower surface on the upper surface of the outlet block 13 (that is, the surface on the cover 50 side). A plurality of protrusions 103 are provided on the inner peripheral surface of the accommodating portion 100c. When the receiving portion 90 is accommodated in the accommodating portion 100c, the plurality of (for example, two) protruding portions 103 come into contact with the base ends (lower ends) of the side surfaces of the elastic piece portions 90a of the receiving portion 90, thereby It is a projection part for ensuring the space | interval between the elastic piece part 90a and the internal peripheral surface of the accommodating part 100c. Thereby, when the receiving part 90 is accommodated in the accommodating part 100c, the upper part of each elastic piece part 90a of the receiving part 90 does not contact the inner peripheral surface of the accommodating part 100c, and becomes elastically movable. . Each protrusion 103 is provided on both sides of a notch 132 described later and on the bottom (lower surface) side of the accommodating portion 100c.

  On the left side surface (outer side surface) of the outlet block 13, a notch 132 and a plurality of protrusions 133 are provided. The notch 132 is a portion where the connecting portion 92 that is connected to the receiving portion 90 is disposed when the receiving portion 90 is received in the receiving portion 100c. The notch 132 has a strip shape extending in the vertical direction, and is open at the peripheral edge (opening edge) of the upper opening of the housing part 100c. The plurality of protrusions 133 are portions for positioning the lead portion 91 by being caught by the lead portion 91 when the lead portion 91 is disposed on the left side surface of the outlet block 13. Each protrusion 133 is provided on both sides of the notch 132 on the left side surface of the outlet block 13. Each protrusion 133 is provided at an intermediate position in the vertical direction on the left side surface of the outlet block 13.

  The outlet block 13 is provided with a plurality of (for example, three) positioning holes 134. The plurality of positioning holes 134 are holes into which the plurality of positioning portions 55 provided in the corresponding partition region 20 of the back surface 50b of the cover 50 are fitted. The plurality of positioning holes 134 are provided at appropriate positions on the outer periphery of the outlet block 13. In the present embodiment, two corners (for example, the left front corner and the left rear corner) on the lower surface of the outlet block 13 are formed in a step-like shape, and positioning holes 134 are formed at each of the two corners. Is provided. Further, a flange portion 135 is formed so as to protrude forward from the right end of the front side of the upper surface of the outlet block 13, and one positioning hole 134 is provided in the flange portion 135.

  As shown in FIG. 5, the pair of receiving portions 70 and receiving portions 90 are accommodated (held) in the outlet block 13 formed as described above as follows.

  Each of the pair of receiving portions 70 </ b> A and 70 </ b> B is accommodated in the accommodating portions 100 a and 100 b from the lower surface of the outlet block 13. In this accommodated state, the hooking part 101 of each accommodating part 100a, 100b is hooked on the base end (lower end) of each receiving part 70A, 70B. Thereby, each receiving part 70A, 70B is prevented from coming off from the lower side opening part of each accommodating part 100a, 100b. Further, the lead portions 80A and 80B coupled to the receiving portions 70A and 70B abut on the lower surface of the outlet block 13. Thereby, each receiving part 70A, 70B is prevented from coming off from the upper side opening part of each accommodating part 100a, 100b. Accordingly, the receiving portions 70A and 70B are fixed in the accommodating portions 100a and 100b, and the lead portions 80A and 80B are fixed to the lower surface of the outlet block 13. As a result, the pair of electrode members 10 </ b> A and 10 </ b> B are fixed to the upper surface of each outlet block 13.

  The receiving part 90 is accommodated in the accommodating part 100c from the upper surface of the outlet block 13 (see FIG. 2). In this accommodated state, the connecting portion 92 connected to the receiving portion 90 is disposed in the notch 132 and contacts the bottom (lower end) of the notch 132 (see FIG. 5). In addition, the lead portion 91 connected to the connecting portion 92 is disposed on the left side surface of the outlet block 13 so as to cross the protruding portion 133 and below the protruding portion 133. Accordingly, the lead portion 91 is restricted from moving upward by the protrusion 133. Further, the lead portion 91 is restricted from moving downward when the connecting portion 92 contacts the bottom of the notch portion 132. That is, the lead portion 91 is positioned and arranged on the left side surface of the outlet block 13. Moreover, the wall part 136 which comprises the left side surface of the outlet block 13 and the internal peripheral surface of the accommodating part 10c is pinched | interposed by the receiving part 90 and the lead part 91. FIG. Thereby, the receiving part 90 is fixed to the accommodating part 100c, and the lead part 91 is fixed to the left side surface of the outlet block 13. As a result, the grounding conductive member 12 is fixed to the left side surface of each outlet block 13.

  In addition, each outlet block 13 formed in this way is arranged in a corresponding partition region 20 on the back surface 50 b of the cover 50. In this arrangement state, each outlet block 13 is placed on the placement wall portion 57 provided in the corresponding partition region 20. Further, each positioning portion 55 provided in the corresponding partition region 20 is fitted into each positioning hole 134 of each outlet block 13. Thereby, the position of each outlet block 13 on the back surface 50b of the cover 50 is positioned.

(Shutoff switch 6)
Next, the cutoff switch 6 will be described with reference to FIGS.

  The cutoff switch 6 conducts or cuts off the electric wire 5b electrically connected to the electrode member 10B. In this embodiment, the electric wire 5e is connected between the electrode member 10B and the electric wire 5b, and the cutoff switch 6 is connected between the electric wires 5e and 5e. The cut-off switch 6 conducts or cuts off the electric wire 5b electrically connected to the electrode member 10B by conducting or cutting off between the electric wires 5b and 5e.

  In this embodiment, the cut-off switch 6 conducts or cuts off the electric wire 5b electrically connected to the electrode member 10B. However, even if the electric wire 5a electrically connected to the electrode member 10A is conducted or cut off. Good.

  The cutoff switch 6 is connected between the electrode member 10B and the electric wire 5b electrically connected to the electrode member 10B, and conducts or cuts off between the electrode member 10B and the electric wire 5b. In the present embodiment, the cutoff switch 6 conducts or cuts off between the electrode member 10B and the electric wire 5b, but is connected between the electrode member 10A and the electric wire 5a electrically connected to the electrode member 10A. The electrode member 10A and the electric wire 5a may be electrically connected or blocked.

  The cutoff switch 6 includes a switch case 6a and a switch body 6b.

  The switch body 6b is connected between the electric wires 5b and 5e, and is manually turned on or off to cut off or conduct between the electric wires 5b and 5e. Further, the switch body 6b automatically switches from on to off when a current of a predetermined current value or more (that is, overcurrent) flows through the electric wire 5b, thereby blocking or conducting between the electric wires 5b and 5e (excessive current). Current prevention function). The switch body 6b has two connection terminals 6c and 6d to which the electric wires 5b and 5e are connected.

  The switch case 6a is formed in a substantially rectangular parallelepiped box shape, for example. The upper surface of the switch case 6 a is formed in a shape that is slightly larger than the exposure window 18 of the cover 50 (for example, substantially rectangular). A switch body 6b is disposed on the upper surface of the switch case 6a (see FIG. 2), and two connection terminals 6c and 6d are provided in a protruding shape on the lower surface of the switch case 6a (see FIG. 4).

  The cutoff switch 6 configured as described above is disposed on the back surface 50b of the cover 50 so that the upper surface of the switch case 6a is overlapped with the exposed window 18 of the cover 50. In this arrangement state, the switch body 6b is exposed from the exposure window 18 (see FIG. 1).

(Assembly procedure)
Next, the assembly procedure (assembly method) of the table tap 1 will be described.

  In the table tap 1, after the various components 8 are arranged on the back surface 50 b of the cover 50, the cover 50 is attached to the opening 40 a of the body 40. First, an assembly procedure on the cover 50 side (that is, a procedure for arranging various components 8 on the cover 50) will be described with reference to FIGS.

  First, the cutoff switch 6 is disposed on the back surface 50 b of the cover 50 so as to overlap the exposure window 18. Next, the ground conductive member 12 is disposed on the back surface 50 b of the cover 50. In this arrangement state, the lead portion 91 of the conductive member 12 is arranged to extend in the front-rear direction of the cover 50 on the left side of the back surface 50 b of the cover 50. Each receiving portion 90 of the conductive member 12 is disposed below the insertion hole 21 c in the corresponding partition region 20 on the back surface 50 b of the cover 50.

  Next, the plurality of outlet blocks 13 are arranged in the corresponding partition area 20 on the back surface 50 b of the cover 50. At that time, each outlet block 13 accommodates the corresponding receiving portion 90 of the conductive member 12 from the upper surface side (that is, the cover 50 side) of the outlet block 13. Thereby, the corresponding receiving part 90 is accommodated in the accommodating part 100c of the outlet block 13 as mentioned above. A connecting portion 92 connected to the receiving portion 90 is disposed at the bottom of the notch 132 of the outlet block 13. Further, the lead portion 91 of the conductive member 12 (that is, the lead portion 91 connected to the connecting portion 92) is fixed to the left side surface of the outlet block 13. As a result, the conductive member 12 is fixed to the left side surface of each outlet block 13.

  In addition, each positioning portion 55 of the corresponding partition region 20 is fitted in each positioning hole 134 of each outlet block 13. Thereby, each outlet block 13 is positioned at a predetermined position of the corresponding partition area 20.

  Next, the pair of electrode members 10 </ b> A and 10 </ b> B is disposed on the back surface 50 b of the cover 50. At that time, each receiving portion 70 </ b> A of the electrode member 10 </ b> A is accommodated from the lower surface side of the outlet block 13 in the accommodating portion 100 a of the outlet block 13 disposed in the corresponding partition region 20. Similarly, each receiving portion 70 </ b> B of the electrode member 10 </ b> B is accommodated from the lower surface side of the outlet block 13 in the accommodating portion 100 b of the outlet block 13 disposed in the corresponding partition region 20. Thereby, as above-mentioned, two receiving part 70A, 70B in each pair is accommodated in each accommodating part 100a, 100b of the outlet block 13 corresponding. Further, the lead portions 80A and 80B of the electrode members 10A and 10B are fixed to the lower surface of each outlet block 13. As a result, the electrode members 10 </ b> A and 10 </ b> B are fixed to the upper surface of each outlet block 13.

  Next, the power cable 5 is passed through the wire hole 4 of the body 40. The power cable 5 passed through the wire hole 4 is temporarily fixed to the back surface 50 b of the cover 50 by being sandwiched between the temporary fixing portion 56 a and the cutoff switch 6. The electric wires 5a, 5b, and 5c are drawn out from the end of the exterior 5d of the power cable 5 by the same length. This lead-out portion of each electric wire 5a, 5b, 5c is referred to as lead-out electric wire portion 5a1, 5b1, 5c1. The lead wire portions 5a1, 5b1, 5c1 of the electric wires 5a, 5b, 5c have the same length.

  The lead wire portions 5a1, 5b1, 5c1 of the electric wires 5a, 5b, 5c are electrically connected to the corresponding electrode members 10A, 10B or the conductive member 12. That is, the lead wire portion 5a1 is electrically connected through the connection hole 84 of the lead portion 80A of the electrode member 10A. The lead wire portion 5b1 is electrically connected through the connection hole of the connection terminal 6c of the cutoff switch 6. Further, the connection terminal 6d of the cutoff switch 6 and the lead portion 80B of the electrode member 10B are electrically connected to each other by the electric wire 5e. Therefore, the lead wire portion 5b1 is electrically connected to the lead portion 80B via the cutoff switch 6 and the wire 5e. The lead wire portion 5c1 is electrically connected through the connection hole 93a of the lead portion 91 of the conductive member 12 for grounding.

  The lead wire portion 5a1 connected to the electrode member 10A is temporarily fixed to the back surface 50b of the cover 50 by being sandwiched between the temporary fixing portion 56b and the corner portion of the cutoff switch 6. The lead wire portion 5c1 connected to the conductive member 12 is temporarily fixed to the back surface 50b of the cover 50 by being routed around the outside of the temporary fixing portion 56c. Thus, when each electric wire 5a, 5c is temporarily fixed to the back surface 50b of the cover 50, when attaching the cover 50 to the opening part 40a of the body 40, the electric wires 5a, 5c are between the cover 50 and the body 40. Can be prevented from being pinched.

  In the temporarily fixed state, the lead wire portion 5c1 of the ground wire 5c out of the three lead wire portions 5a1, 5b1, and 5c1 is more slack than the lead wire portions 5a1 and 5c1 of the other wires 5a and 5b. It is running low. In this way, the lead-out electric wire portion 5 c 1 of the grounding electric wire 5 c is temporarily fixed to the cover 50 by the temporary fixing portion 56. Thereby, when the same tension | tensile_strength acts on each electric wire 5a, 5b, 5c simultaneously, the electric wire 5c for earth | grounding can be pulled initially among the three electric wires 5a, 5b, 5c with the tension | tensile_strength. Thereby, it can suppress that other electric wires 5a and 5b cut | disconnect initially with said tension | tensile_strength. Further, the lengths of the lead wire portions 5a1, 5b, 5c1 of the electric wires 5a, 5b, 5c are made the same, and the lead wire portions 5a1, 5b, 5c1 of the electric wires 5a, 5b, 5c are loosened by the temporary fixing portions 56. On the other hand, the order in which the electric wires 5a, 5b, 5c are cut can be set.

  Thus, the various components 8 are arranged on the back surface 50b of the cover 50. Then, the opening 40 a of the body 40 is closed by the cover 50. The screws N1 are screwed into the screw holes 54b of the boss portions 54 of the cover 50 from the outside of the body 40 through the through holes 62b of the body 40. Thereby, the cover 50 is fixed to the opening 40a of the body 40, and the table tap 1 is assembled (see FIG. 1).

  As shown in FIG. 1, in this assembled state, the outer peripheral portion 50 a of the cover 50 fits inside the opening 40 a of the body 40. Thereby, the outer peripheral portion 50 a of the cover 50 is protected by the body 40. Further, the outer wall portion 51 of the cover 50 fits into the recess 60 b of the vertical rib 60 of the body 40. Thereby, the position on the opening surface of the opening part 40a of the body 40 in the cover 50 is positioned. In addition, the lower surface of each outlet block 13 disposed on the back surface 50 b of the cover 50 is pushed by a plurality of protrusions 63 provided on the bottom wall 41 of the body 40. Thereby, the position of the up-and-down direction of each outlet block 13 is positioned. The position of each outlet block 13 in the housing 3 is determined by the protruding portion 63 and the positioning portion 55.

  Further, as shown in FIG. 10, the power cable 5 is sandwiched between the first sandwiching wall portion 61 and the second sandwiching wall portion 53 in the housing 3. Thereby, even if the power cable 5 is pulled outside the housing 3, the tension at that time can be stopped by the clamping portion 17 configured by the first clamping wall portion 61 and the second clamping wall portion 53. As a result, even if the power cable 5 is pulled outside the housing 3, it is possible to prevent the electric wires 5a to 5c in the power cable 5 from being disconnected from the electrical components (10A, 10B, 12).

  In addition, said assembly procedure is an example and the order in which various components are arrange | positioned at a cover may be changed suitably.

(Summary)
The table tap (1) which concerns on a 1st aspect is provided with the housing | casing (3), a pair of receiving part (70A, 70B), and a pair of lead part (80A, 80B). The housing (3) has a plurality of outlets (2) arranged in one direction. Each of the plurality of outlets (2) includes a pair of insertion holes (21a, 21b) into which a pair of electrodes (202a, 202b) of the insertion plug (200) is inserted. The pair of receiving portions (70A, 70B) is provided for each of the plurality of outlets (2), and is electrically connected to the pair of electrodes (202a, 202b) inserted into the pair of insertion holes (21a, 21b). Connected. The pair of lead portions (80A, 80B) has a one-to-one correspondence with the pair of receiving portions (70A, 70B), and are coupled to the corresponding receiving portions (70A, 70B). The arrangement direction in which the plurality of outlets (2) are arranged and the arrangement direction in which each of the pair of receiving portions (70A, 70B) are arranged are aligned in one direction. The pair of lead portions (80A, 80B) are formed in the same shape and size. The pair of lead portions (80A, 80B) are arranged such that the directions of their shapes are aligned in the same direction, and their arrangements are shifted from each other along one direction.

  According to this configuration, the arrangement direction in which the plurality of outlets (2) are arranged and the arrangement direction of each of the pair of receiving portions (70A, 70B) are aligned in one direction. As described above, it is assumed that a plurality of outlets (2) and a pair of receiving portions (70A, 70B) are arranged. Moreover, since each of a pair of lead part (80A, 80B) is mutually formed in the same shape and the same size, it can form as a mutually common component. In addition, each of the pair of lead portions (80A, 80B) is arranged such that the directions of the shapes are aligned in the same direction, and the mutual arrangement is shifted from each other along the one direction. For this reason, the insulation distance between each lead part (80A, 80B) and the receiving part (70B, 70A) not connected to each lead part (80A, 80B) can be secured while satisfying the above premise. As a result, each of the pair of lead portions (80A, 80B) can be a common component, and each lead portion (80A, 80B) and the receiving portion (70B, 70A) not coupled to each lead portion (80A, 80B). ) Can be secured.

  In the table tap (1) according to the second aspect, in the first aspect, the insertion / removal direction of the pair of electrodes (202a, 202b) into the pair of insertion holes (21a, 21b) and the pair of lead portions ( 80A and 80B) coincide with the respective thickness directions.

  According to this configuration, it is possible to avoid increasing the width in the insertion / removal direction of the insertion plug (200) in the table tap (1) in order to secure an arrangement space for the pair of lead portions (80A, 80B).

  In the table tap (1) according to the third aspect, in the first or second aspect, the pair of lead parts (80A, 80B) is coupled to the pair of receiving parts (70A, 70B). A recess (81) is provided in a portion adjacent to the receiving portion (70B, 70A) that is not.

  According to this structure, it is not couple | bonded with each lead part (80A, 80B) and each lead part (80A, 80B) by the recessed part (81) provided in each of a pair of lead part (80A, 80B). It is possible to further secure an insulation distance between the receiving portions (70B, 70A).

  In the table tap (1) according to the fourth aspect, in any one of the first to third aspects, each of the pair of lead portions (80A, 80B) and the pair of receiving portions (70A, 70B). The corresponding receiving portions are separate members. Each of the pair of receiving portions (70A, 70B) has a coupling portion (74) coupled to a corresponding lead portion (80A, 80B) of the pair of lead portions (80A, 80B).

  According to this configuration, the relative arrangement of the lead portions (80A, 80B) and the receiving portions (70A, 70B) coupled to each other can be made different for each lead portion (80A, 80B). For example, when each of the pair of lead portions (80A, 80B) is arranged in the left-right direction, in the right lead portion (80A), the receiving portion (70A) coupled to the lead portion (80A) is replaced with the lead portion (80A). ). In the left lead portion (80B), the receiving portion (70B) coupled to the lead portion (80B) can be disposed on the right side of the lead portion (80B). As a result, the degree of freedom of relative arrangement between each of the pair of lead portions (80A, 80B) and each of the pair of receiving portions (70A, 70B) can be improved.

  In the table tap (1) according to the fifth aspect, in any one of the first to fourth aspects, a reinforcing rib (83) is provided in each of the pair of lead portions (80A, 80B). ing.

  According to this configuration, the strength and rigidity of the lead portions (80A, 80B) can be improved by the reinforcing rib (83). As a result, even if the lead portions (80A, 80B) are formed in a plate shape, sufficient strength and rigidity can be ensured.

  In the table tap (1) according to the sixth aspect, in any one of the first to fifth aspects, each of the pair of receiving portions (70A, 70B) is a pair of lead portions (80A, 80B). Among them, the lead portions (80B, 80A) that are not connected are arranged with an interval (K1) in the insertion / removal direction of the insertion plug (200).

  According to this configuration, the insulation distance between each lead portion (80A, 80B) and the receiving portion (70B, 70A) not coupled to each lead portion (80A, 80B) is further increased by the interval (K1). It can be secured. The interval (K1) is an interval formed in the insertion / removal direction of the insertion plug (200) with respect to the insertion holes (21a, 21b).

  The table tap (1) which concerns on a 7th aspect is further provided with the outlet block (13) in any one aspect of the 1st-6th aspect. The outlet block (13) is provided for each of the plurality of outlets (2). The outlet block (13) is provided with a pair of accommodating portions (100a, 100b) for accommodating each of the pair of receiving portions (70A, 70B).

  According to this configuration, the pair of receiving portions (70A, 70B) provided in each outlet (2) is held together by the outlet block (13) for each outlet (2), and is stored in the housing (3). Can be fixed. Thereby, the fixing operation | work which fixes a pair of receiving part (70A, 70B) provided in each outlet (2) in a housing | casing (3) can be performed efficiently.

  In the table tap (1) according to the eighth aspect, in the seventh aspect, the inner peripheral surface of each of the pair of accommodating portions (100a, 100b) is accommodated in each of the pair of accommodating portions (100a, 100b). A hooking portion (101) that is hooked on the receiving portions (70A, 70B) is provided.

  According to this structure, it can prevent that a receiving part (70A, 70B) comes off from an accommodating part (100a, 100b) by a hook part (101).

  In the table tap (1) according to the ninth aspect, in the seventh or eighth aspect, the pair of insertion holes (21a, 21b) is used as a pair of first insertion holes, and a pair of receiving portions (70A, 70B). ) Is a pair of first receiving portions. The pair of lead portions (80A, 80B) is a pair of first lead portions, and the housing portions (100a, 100b) are first housing portions. The table tap (1) further includes a grounding conductive member (12). Each of the plurality of outlets (2) has a second insertion hole (21c) into which the ground terminal (202c) of the insertion plug (200) is inserted. The conductive member (12) includes a second receiving portion (90), a second lead portion (91), and a connecting portion (92). The second receiving portion (90) is electrically connected to the ground terminal (202c) inserted into the second insertion hole (21c). The connecting part (92) connects the second receiving part (90) and the second lead part (91). The outlet block (13) is provided with a second housing part (100c) and a notch part (132). The second housing part (100c) houses the second receiving part (90). The notch (132) penetrates between the outer surface of the outlet block (13) and the inner surface of the second housing part (100c), and is open at the opening edge of the second housing part (100c). The second lead portion (91) is disposed on the outer surface of the outlet block (13) with the second receiving portion (90) being accommodated in the second accommodating portion (100c). Moreover, a connection part (92) is arrange | positioned at a notch part (132). Further, the second receiving portion (90) and the second lead portion (91) form a wall portion (136) that constitutes the outer side surface of the outlet block (13) and the inner peripheral surface of the second accommodating portion (100c). Sandwiched.

  According to this configuration, the second lead portion (91) is disposed on the outer surface of the outlet block (13) in a state where the second receiving portion (90) is accommodated in the second accommodating portion (100c), and the connecting portion (92) is disposed in the notch (132). And the wall part (136) which comprises the outer peripheral surface of an outlet block (13) and the internal peripheral surface of a 2nd accommodating part (100c) by a 2nd receiving part (90) and a 2nd lead part (91). Sandwiched. Thus, by using the sandwiching of the wall portion (136) by the second receiving portion (90) and the second lead portion (91), the conductive member (12) for grounding can be connected to the outlet block with a simple structure. It can be fixed to (13).

  In the table tap (1) according to the tenth aspect, in the ninth aspect, a protrusion (133) is provided on the outer surface of the outlet block (13). The protrusion (133) is hooked on the second lead portion (91) disposed on the outer surface of the outlet block (13).

  According to this configuration, the second lead portion (91) can be positioned on the outer surface of the outlet block (13) by the protrusion (133). As a result, the grounding conductive member (12) can be positioned and fixed to the outlet block (13).

  In the table tap (1) according to the eleventh aspect, in the ninth or tenth aspect, the housing (3) has a body (40) and a cover (50). The body (40) has an opening (40a) and an internal space (40f). The internal space (40f) is connected to the opening (40a). The cover (50) closes the opening (40a). The internal space (40f) accommodates the pair of first receiving portions (70A, 70B), the pair of first lead portions (80A, 80B), the outlet block (13), and the conductive member (12). The second accommodating portion (100c) is provided on the cover (50) side surface of the outlet block (13).

  According to this configuration, with the grounding conductive member (12) disposed on the back side of the cover (50), the outlet block (13) is placed on the back side of the cover (50) so as to cover the conductive member (12). Can be arranged. Thereby, attachment of the outlet block (13) to the cover (50) and accommodation of the second receiving portion (70A, 70B) to the second accommodation portion (100c) of the outlet block (13) can be performed together. As a result, the efficiency of the assembly work of the table tap (1) can be increased.

DESCRIPTION OF SYMBOLS 1 Table tap 2 Outlet 3 Housing | casing 12 Conductive member 13 Outlet block 21a, 21b Insertion hole (1st insertion hole)
21c insertion hole (second insertion hole)
70A, 70B receiving part (first receiving part)
80A, 80B Lead part (first lead part)
81 Concave portion 83 Reinforcement rib 90 Receiving portion (second receiving portion)
91 Lead part (second lead part)
92 connection part 100a, 100b accommodation part (1st accommodation part)
100c housing part (second housing part)
101 Hooking part 132 Notch part 133 Protrusion part 136 Wall part 200 Insertion plug 202a, 202b Electrode 202c Grounding terminal K1 space | interval

Claims (11)

A housing having a plurality of outlets arranged in one direction, wherein each of the plurality of outlets includes a pair of insertion holes into which a pair of electrodes of an insertion plug is inserted;
A pair of receiving portions provided for each of the plurality of outlets and electrically connected to the pair of electrodes inserted into the pair of insertion holes;
A pair of lead portions corresponding to the pair of receiving portions on a one-to-one basis and coupled to the corresponding receiving portions;
The arrangement direction in which the plurality of outlets are arranged and the arrangement direction in which each of the pair of receiving portions are arranged are aligned in the one direction,
The pair of lead portions are formed in the same shape and size as each other,
The pair of lead portions are arranged such that the directions of the shapes are aligned in the same direction, and the mutual arrangement is shifted from each other along the one direction.
Tabletop. The insertion / removal direction of the pair of electrodes to the pair of insertion holes coincides with the thickness direction of each of the pair of lead portions,
The table tap according to claim 1. Each of the pair of lead portions is provided with a recess in a portion adjacent to the receiving portion that is not coupled among the pair of receiving portions.
The table tap according to claim 1 or 2. Each of the pair of lead portions and a corresponding receiving portion of the pair of receiving portions are separate members from each other.
Each of the pair of receiving portions has a coupling portion that couples with a corresponding lead portion of the pair of lead portions.
The table tap of any one of Claims 1-3. Each of the pair of lead portions is provided with a reinforcing rib.
The table tap of any one of Claims 1-4. Each of the pair of receiving portions is arranged with an interval in the insertion / removal direction with respect to a lead portion that is not connected among the pair of lead portions,
The table tap of any one of Claims 1-5. Further comprising an outlet block provided for each of the plurality of outlets,
The outlet block is provided with a pair of accommodating portions for accommodating each of the pair of receiving portions.
The table tap of any one of Claims 1-6. On each inner peripheral surface of the pair of accommodating portions, a hooking portion that is hooked on the receiving portion accommodated in each of the pair of accommodating portions is provided.
The table tap according to claim 7. The pair of insertion holes as a pair of first insertion holes,
The pair of receiving portions is a pair of first receiving portions,
The pair of lead portions as a pair of first lead portions;
The housing portion is a first housing portion,
It further includes a conductive member for grounding,
Each of the plurality of outlets has a second insertion hole into which a ground terminal of the insertion plug is inserted,
The conductive member is
A second receiving part electrically connected to the ground terminal inserted into the second insertion hole;
A second lead portion;
A connecting portion for connecting the second receiving portion and the second lead portion;
Have
In the outlet block,
A second accommodating portion for accommodating the second receiving portion;
A notch portion that penetrates between the outer side surface of the outlet block and the inner side surface of the second housing portion and is opened at the opening edge of the second housing portion is provided,
In a state where the second receiving portion is accommodated in the second accommodating portion, the second lead portion is disposed on the outer surface of the outlet block, and the connecting portion is disposed on the notch portion,
A wall portion constituting the outer surface and the inner peripheral surface is sandwiched between the second receiving portion and the second lead portion.
The table tap according to claim 7 or 8. The table tap according to claim 9, wherein the outer surface of the outlet block is provided with a protrusion that is hooked to the second lead portion disposed on the outer surface. The housing is
A body having an opening and an internal space connected to the opening;
A cover for closing the opening,
The internal space accommodates the pair of first receiving portions, the pair of first lead portions, the outlet block, and the conductive member,
The second accommodating portion is provided on a surface of the outlet block on the cover side,
The table tap according to claim 9 or 10.

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