JP3671618B2 - Outlet - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an outlet constructed with a part embedded in a construction surface such as a wall surface.
[0002]
[Prior art]
In general, the outlet is formed so as to fit one-to-one with the shape of the plug. In other words, there is currently only one type of plug that can be plugged into an outlet.
[0003]
[Problems to be solved by the invention]
Therefore, in order to use a plug having a shape that does not fit the outlet, an adapter for converting the shape of the plug blade is required.
The present invention has been made in view of the above reasons, and an object of the present invention is to provide an outlet capable of supporting a plurality of types of plugs without using an adapter.
[0004]
[Means for Solving the Problems]
The invention of claim 1 is installed in such a manner that the front end is inserted into a rectangular opening window formed on a plate fixed to the construction surface and the rear end is embedded in the construction surface. A flat plug blade insertion port into which a flat flat plug blade is inserted and a pin type blade insertion port into which a pin-shaped pin blade is inserted. In the outlet with the insertion port opened on the front of the body, the body consists of a body on the rear end side and a cover on the front end side with the insertion port, provided on one side of the body and the cover and on the other side. The body and the cover are coupled by engaging the assembly hole with the concave and convex portions, two assembly claws are projected on each outer surface of the body, the assembly hole is provided on the assembly piece protruding from the cover, Two assembly holes are formed in the assembly piece .
[0005]
The invention of claim 2 is installed in such a manner that the front end is inserted into a rectangular opening window formed on the plate fixed to the construction surface and the rear end is embedded in the construction surface. A flat plug blade insertion port into which a flat flat plug blade is inserted and a pin type blade insertion port into which a pin-shaped pin blade is inserted. In the outlet with the insertion port opened on the front of the body, the body consists of a body on the rear end side and a cover on the front end side with the insertion port, provided on one side of the body and the cover and on the other side. The body and the cover are joined by engaging the assembly hole with the concave and convex portions, one assembly claw is projected on each outer surface of the body, and the assembly hole is provided on the assembly piece protruding from the cover. The assembly claw is formed in a bifurcated shape so as to fit with the reinforcing piece protruding forward from the rear edge Ru are Monodea.
[0006]
According to a third aspect of the present invention, in the first or second aspect of the present invention, the body that houses the blade receiving member that receives the plug blade is formed of a synthetic resin having tracking resistance, and the cover including the assembly piece is elastic. Ru der those formed by synthetic resin having.
[0008]
According to a fourth aspect of the present invention, in the first to third aspects of the invention, the front end portion of the assembly piece is provided with a reinforcing portion formed thicker than other portions.
According to a fifth aspect of the present invention, in the first or second aspect of the present invention, a mounting portion coupled to a holding portion formed on the plate at a unit pitch is formed on the side surface of the container.
According to a sixth aspect of the present invention, in the fifth aspect of the present invention, the plate is made of metal, and holding claws as holding portions are formed on both side portions of the opening window, respectively, and the plate is plastically deformed to form a side surface of the container body. A holding claw is concavo-convexly coupled to the formed mounting hole as the mounting portion.
[0009]
The invention of claim 7 is the invention of claim 5 , wherein the plate is a synthetic resin molded product, and holding grooves as holding portions are formed on both sides of the opening window, respectively, and the plate is bent by utilizing the elasticity of the plate. As a result, the mounting claws as the mounting portions protruding from the side surfaces of the container body are unevenly coupled to the holding holes.
The invention of claim 8 is the invention of claim 7 , wherein holding grooves are respectively formed in the fixed beam portion and the movable beam portion projecting on the back side of the plate so as to face each side surface of the container, Is flexible, and the movable beam part is bent in the holding groove of the movable beam part while the movable beam part is bent while the mounting claw on one side of the container body is engaged with the holding groove of the fixed beam part. The attachment claw on the other side is engaged.
[0010]
The invention according to claim 9 is the invention according to claim 7 , wherein the movable beam portion is pressed by pressing the body toward the movable beam portion side using a tool inserted through an instrument removal hole formed in the vicinity of the fixed beam portion. The instrument is bent and removed from the plate.
According to a tenth aspect of the present invention, in the first or second aspect of the present invention, a terminal portion electrically connected to a blade receiving member disposed in the container and connected to the plug blade of the plug is housed in the container. The terminal portion holds the electric wire inserted from the electric wire insertion port provided in the container body by a locking spring that applies a spring force in a direction crossing the insertion direction of the electric wire.
[0011]
According to an eleventh aspect of the present invention, in the tenth aspect of the present invention, a terminal piece that constitutes a terminal together with a lock spring is formed integrally with a part of the blade receiving member.
According to a twelfth aspect of the present invention, in the invention of the tenth aspect , the blade receiving member disposed in the container and connected to the plug blade is a spring piece elastically contacting the plug blade, and an electric wire provided in the container. A terminal piece for holding an electric wire inserted from the insertion port between the locking spring and a bridging piece for continuously connecting the spring piece and the terminal piece integrally.
[0012]
According to a thirteenth aspect of the present invention, in the twelfth aspect of the present invention, the pair of first spring pieces sandwiching the pin type plug blade and the flat type plug blade as the first spring as the spring pieces elastically contacting the plug blade of the plug. And a second spring piece sandwiched between the side surfaces of the pieces.
According to a fourteenth aspect of the present invention, in the first or second aspect of the present invention, a flat plug blade insertion port into which a flat flat plug blade is inserted and a pin plug into which a pin-shaped pin blade is inserted. The blade insertion opening is opened on the front surface of the cover.
[0013]
According to a fifteenth aspect of the present invention, in the fourteenth aspect of the present invention, an insertion portion into which the plug blade of one plug is inserted is formed by assembling two insertion openings.
According to a sixteenth aspect of the present invention, there is provided the plug according to the fourteenth aspect of the present invention, wherein the plug blade of one plug is inserted into a pair of the two insertion openings and the insertion opening for the ground electrode provided separately from both insertion openings. A part is formed.
[0015]
The invention according to claim 17 is the invention according to claim 1 or 2 , wherein the rear part of the container is housed in a box which is opened in a circular shape and embedded in the construction surface, and the front surface is formed in a rectangular shape. A chamfered portion is formed in a corner portion of the container body along the inner peripheral surface of the box.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
In the embodiment described below, unless otherwise specified, the vertical and horizontal directions are defined in the direction of FIG. 2, and the front in FIG.
(Embodiment 1)
The configuration of this embodiment is shown in FIGS. The body 1 has a body 10 formed in a rectangular parallelepiped shape whose front surface is opened using a thermosetting synthetic resin (for example, urea resin) having excellent tracking resistance, and has elasticity and excellent tracking resistance. It is formed by bonding a cover 20 formed in a rectangular parallelepiped shape whose rear surface is opened using a synthetic resin (for example, polybutylene terephthalate = PBT). The container 1 has a prescribed unit dimension to be described later.
[0017]
A pair of assembly claws 11 project from the upper and lower end faces of the body 10. On the other hand, shoulders 21 project from the upper and lower ends of the cover 20, and assembly pieces 22 project from the rear edge of each shoulder 21 toward the body 10. Each assembly piece 22 is formed with a pair of engagement holes 22a for engaging with the assembly claws 11 provided in the body 10 in an uneven manner. The front end of the assembly claw 11 is formed with a guide surface 11a that is inclined so as to reduce the amount of protrusion from the body 10 toward the front. Therefore, when the cover 20 is assembled to the body 10, the assembly piece 22 bends along the guide surface 11 a, and finally the engagement hole 22 a provided in the assembly piece 22 fits into the assembly claw 11, thereby The cover 20 is coupled. Thus, since it is necessary to bend the assembly piece 22, the cover 20 is formed of a synthetic resin having elasticity.
[0018]
Here, when the assembly piece 22 is molded, a plurality of resin flows are formed and merged in the vicinity of the front end portion of the assembly piece 22, so that a weld line is easily formed at the front end portion of the assembly piece 22. Since the assembly piece 22 is engaged with the assembly claw 11 using bending as described above, there arises a problem that when the weld line is formed, the assembly piece 22 is easily broken at the time of bending. Therefore, a reinforcing portion 22b having a partially increased thickness is formed at a portion where the weld line is formed to prevent the assembly piece 22 from cracking.
[0019]
The internal space of the body 10 is divided into two by a partition wall 12 provided at an intermediate portion in the longitudinal direction. The front end portion of the partition wall 12 projects forward from the opening surface of the body 10. Positioning projections 10a projecting forward are projected at appropriate positions on the peripheral wall of the body 10. The partition wall 12 and the positioning protrusion 10a engage with a recess (not shown) formed in the cover 20 when the body 10 and the cover 20 are coupled to prevent the cover 20 from rattling. To do. A partition wall (not shown) is also formed in the cover 20, and when the body 10 and the cover 20 are joined, the partition wall 12 of the body 10 and the partition wall of the cover 20 are abutted to each other, thereby The internal space is divided into two independent rooms.
[0020]
The blade receiving members 30 are respectively stored in the storage chambers 13 formed through the partition walls 12 in the body 10. Each blade receiving member 30 includes a pair of spring pieces 31 opposed to each other, a spring piece 32 opposed to one side surface of both spring pieces 31, and a U-shaped coupling piece that continuously couples the spring pieces 31 and 32 together. 33. In addition, a positioning piece 34 protrudes continuously from the connecting piece 33 at a portion between the spring piece 31 and the side of the spring piece 32. Furthermore, a terminal piece 35 is formed integrally with the connecting piece 33 at the open end of the connecting piece 33 so as to protrude away from each other. By the way, this blade receiving member 30 is formed such that the distance between the portions of the pair of spring pieces 31 facing each other that come into contact with the pin-type plug blade is closer to the spring piece 32 (see FIG. 5). In other words, the distance between the spring pieces 31 is increased as the two blade receiving members 30 are closer to each other. Therefore, when the pin-type plug blade is inserted into the blade receiving member 30, even if the distance between the pair of pin-type plug blades or the diameter of the pin-type plug blade differs depending on the type of the plug, The force of the direction which positions a plug near the center of the double blade receiving member 30 acts with a spring force, and the spring force of the spring piece 31 in the double blade receiving member 30 can be equalized.
[0021]
Positioning ribs 14a to 14c are formed in the body 10 to contact the connecting piece 33, the positioning piece 34, and the terminal piece 35, respectively, and the blade receiving member 30 is positioned at a fixed position in the body 10 by the positioning ribs 14a to 14c. The The positioning ribs 14b and 14c are formed so as to oppose each other, and a lock spring 36 is disposed between the terminal piece 35 in contact with the positioning rib 14c and the positioning rib 14b. The locking spring 36 is formed by bending one end portion of the belt plate in a J shape to form a contact piece 36a and bending the other end portion in an S shape to form a locking piece 36b. The contact piece 36a and the locking piece 36b are accommodated in the body 10 so as to face the terminal piece 35. The positioning piece 34, the terminal piece 35, and the locking spring 36 of the blade receiving member 30 are pressed by the holding ribs 23 a and 23 b provided in the cover 20 so as not to float from the body 10.
[0022]
An electric wire insertion opening 15 is formed on the rear wall of the body 10 so that an electric wire can be introduced between the lock spring 36 and the terminal piece 35. When an electric wire is inserted between the locking spring 36 and the terminal piece 35 through the electric wire insertion port 15 from the side of the locking piece 36a, the electric wire is connected to the terminal piece 35 by the spring force of the contact piece 36a and the locking piece 36a. When the locking piece 36b bites into the electric wire, the electric wire cannot be pulled out. Thus, since it can connect only by inserting an electric wire in the electric wire insertion port 15, compared with the case where a terminal with a screw etc. are used, a connection work becomes easy.
[0023]
In each storage chamber 13, a release button 37 is disposed so as to straddle a pair of lock springs 36 respectively facing a pair of terminal plates 35 provided on each blade receiving member 30. The release button 37 is disposed so as to abut against the locking piece 36 b of the both locking springs 36 and to be slidable along the rear wall of the body 10. The part where the release button 37 contacts the locking piece 36 b is deviated from the part where the locking piece 36 b clamps the electric wire between the terminal piece 35. In addition, an operation hole 16 is formed in the rear wall of the body 10 at a portion corresponding to the release button 37. By inserting a tip of a minus driver into the operation hole 16 and pressing the release button 37, the operation hole 16 is bitten into the electric wire. The lock piece 36b is bent away from the electric wire so that the electric wire can be pulled out.
[0024]
As is clear from the above description, since two electric wires can be connected to each blade receiving member 30 arranged in each storage chamber 13, one electric wire is set as the power supply side, and the other electric wire is connected to another outlet. If it is used as a feed wiring connected to the cable, a wire connection work for connecting a plurality of outlets in parallel is facilitated. In addition, since the electric wire on the power supply side and the electric wire that is the feed wiring are individually connected, it is connected to the outlet that should be removed without removing the two wires at the same time when the already connected outlet is removed. Since only the electric wire needs to be replaced, it is possible to easily cope with a change in wiring.
[0025]
By the way, an insertion portion 24 into which a pair of plug blades provided in one plug can be inserted is formed on the front wall of the cover 20 for one port. The insertion portion 24 includes insertion openings 25 that open at portions corresponding to the spring pieces 31 and 32 of each blade receiving member 30, and each insertion opening 25 is inserted into a flat plug blade into which a flat flat plug blade is inserted. The opening 25a and the pin-type plug blade insertion port 25b into which the pin-shaped pin-type plug blade is inserted communicate with each other. That is, the flat type plug blade insertion port 25a has a rectangular shape, and has a shape in which the circular pin type blade insertion port 25b communicates with one side edge of the middle portion in the longitudinal direction. Further, the distance between the centers of the pin-type plug blade insertion ports 25b is wider than the distance between the centers of the flat-type plug blade insertion ports 25a. The flat type plug blade inserted into the flat type plug blade insertion port 25a is sandwiched between the side surface of the spring piece 31 and the spring piece 32, and the pin type plug blade inserted into the pin type plug blade insertion port 25b is a pair. It is clamped between the spring pieces 31. The flat plug blade insertion opening 25a has different lengths on the voltage line side and the ground line side.
[0026]
The above-mentioned container 1 is attached to a plate 100 to be described later, and a pair of attachment claws 2 project from the shoulder portions 21 provided on both side surfaces of the cover 20 so as to be coupled to the plate 100. . An inclined surface 2 a is formed at the front end portion of the mounting claw 2 so as to decrease the amount of protrusion from the shoulder portion 21 toward the front. In addition, a mounting hole 3 is formed in each side surface of the container 1 corresponding to a position between the mounting claws 2 and slightly behind the mounting claws 2. Depending on the type of plate 100, the vessel 1 is attached to the plate 100 using the attachment hole 3.
[0027]
As the cover 20, as shown in FIG. 7, a cover having only a flat plug blade insertion opening 25 a may be used in the insertion portion 24. That is, if only the cover 20 is exchanged using the body 10 and the blade receiving member 30 in common, it is possible to configure an outlet provided with only the flat plug blade insertion port 25a. Therefore, it becomes possible to supply an outlet for an area where both the flat type blade and the pin type blade can be used, and an outlet for an area where only the flat type blade can be used by replacing only the cover, By sharing parts, it is possible to develop a wide variety of parts while preventing an increase in the number of parts.
[0028]
In order to construct the outlet having the above-described configuration, the plate 100 shown in FIGS. 8 and 9 is used. The plate 100 is composed of a plate frame 110 that holds the container 1 and a decorative plate 120 that covers the plate frame 110 and is applied with good appearance. The plate frame 110 includes a synthetic resin and a metal.
The synthetic resin plate frame 110 has an insulating property, and the left end portions and the right end portions of the pair of frame pieces 113a and 113b are continuously and integrally joined by the horizontal pieces 112, thereby exposing the front surface of the body 1. The rectangular opening window 111 to be formed is formed in a vertically long rectangular frame shape having a central portion. On the rear surface side of both side edges along the longitudinal direction of the opening window 111, a strip-like fixed beam portion 114 and a movable beam portion 115 are provided so as to face each other.
[0029]
The movable beam portion 115 is continuously and integrally connected to the frame piece 113b via a connecting portion 116 extending in the longitudinal direction of the movable beam portion 115 at both ends in the longitudinal direction, and two intermediate portions are connected to the movable beam portion 115. It is continuously and integrally connected to the frame piece 113b via a bridge portion 117 in the orthogonal direction. Moreover, the part between each connection part 116 and each bridge | bridging part 117 and between both the bridge | bridging parts 117 becomes the slit 118a-118c penetrated in the front and back. The synthetic resin forming the plate frame 110 is flexible, and the movable beam portion 115 and the connecting portion 116 are flexible. The slits 118a and 118c on both sides are formed in an L shape, and the slit 118b in the middle is formed in a straight line. In the frame piece 113b, in the vicinity of each bridge portion 117, long hole-like grooves 119 penetrating the front and back are provided so that the movable beam portion 115 is flexible even at a portion corresponding to the bridge portion 117.
[0030]
On the other hand, on one surface facing the opening window 111 in the fixed beam portion 114 and the movable beam portion 115, there are six holding portions serving as concave and convex engagements with the attachment claws 2 protruding in pairs on both side surfaces of the body 1. Holding grooves 114a and 115a (see FIG. 10) are provided at an equal pitch. Accordingly, when the mounting claws 2 provided on the container body 1 are engaged with the holding grooves 114a and 115a, the body 1 is attached to the plate frame 110 with the front surface of the container body 1 exposed from the opening window 111. can do. Further, the base of the fixed beam portion 114 and the movable beam portion 115 is in contact with the front surface of the shoulder portion 21 projecting on both side surfaces of the device body 1 so that the device body 1 does not fall forward from the plate frame 110. Portions 114d and 115d are formed. That is, the front surface of the shoulder portion 21 contacts the contact portions 114d and 115d (see FIG. 10), and the rear surface of the attachment claw 2 is locked to the holding grooves 114a and 115a. To be attached.
[0031]
Here, the attachment claws 2 of the container 1 are introduced into the holding grooves 114a and 115a from the rear surface side of the plate frame 110 at the respective front end portions of one surface of the fixed beam portion 114 and the movable beam portion 115 facing the opening window 111. At this time, in order to guide each mounting claw 2 to the holding grooves 114a and 115a, guide portions 114b and 115b having inclined surfaces which are inclined so as to increase the distance from each other toward the distal end side are provided. That is, as shown in FIGS. 10A to 10C, in order to attach the container body 1 to the plate frame 110, the attachment claws 2 protruding from one side surface of the container body 1 are inserted into the holding grooves 114a of the fixed beam portion 114. When the container body 1 is pushed forward with respect to the plate frame 110 with the front end of the container body 1 substantially aligned with the opening window 111, the mounting claws 2 protruding from the other side surface of the container body 1 are While the movable beam portion 115 is bent, the inclined surface 2a and the guide portion 115b are driven into the holding groove 115a, and the attachment claw 2 can be easily engaged with the holding groove 115a.
[0032]
By the way, since the connection part 116 is provided on the extension line of the movable beam part 115 as described above, even if a pressing force acts on the container body 1 from the front side to the rear side, the movable beam part 115 remains open to the opening window 111. The attachment claw 2 of the container 1 does not come off from the holding groove 115a by bending so as to fall to the side. Thereby, the attachment intensity | strength with respect to the plate frame 110 of the container 1 can be improved.
[0033]
On the other hand, an instrument removal hole 114c that penetrates the front and back of the plate frame 110 is formed between each pair of adjacent holding grooves 114a at the base of the fixed beam 114, and the instrument 1 is attached to the plate frame 110. In this state, when the tip of a screwdriver or a dedicated jig for removal is inserted into the instrument removal hole 114c and the body 1 is pushed toward the movable beam 115 by the tip of the jig, the lever is operated with a slight force. The movable beam portion 115 can be bent, and the engagement state between the holding groove 114a on the fixed beam portion 114 side and the attachment claw 2 of the device body 1 can be released and the device body 1 can be removed from the plate frame 110. It has become.
[0034]
Incidentally, as described above, the plate frame 110 has three pairs of holding grooves 114a and 115a in the fixed beam portion 114 and the movable beam portion 115, respectively, and the body 1 has a pair of mounting claws 2 on each side surface. Since it is formed, it is possible to attach up to three above-mentioned vessel bodies 1 to the plate frame 110. That is, the plate frame 110 is for three pieces, and the container 1 whose mounting dimensions are set so that a maximum of three plate frames 110 can be attached to the three plate frames 110 is referred to as a single unit-sized container body 1. I will decide. In this way, by defining the relative mounting dimensions of the container 1 and the plate frame 110, it is possible to attach an arbitrary number of containers 1 in the range of 1 to 3 to the plate frame 110. Become. The pitch of the holding grooves 114a and 115a provided in the fixed beam portion 114 and the movable beam portion 115 is equal to the pitch of the mounting claws 2 protruding from the side surface of the unit body 1 having a unit size, and as described above. Since the holding grooves 114a and 115a are equally spaced, if the container 1 has a unit size, a plate is formed using any two holding grooves 114a and 115a adjacent to the fixed beam portion 114 and the movable beam portion 115. It can be attached to the frame 110. FIG. 11 shows a state in which the container 1 is attached to the plate frame 110.
[0035]
Incidentally, a recess 131 is formed in the front surface of the intermediate portion of each horizontal piece 112 of the plate frame 110. Each recess 131 has a box hole 132 through which a box screw for attaching the plate frame 110 to an embedding box (not shown) is inserted, and a screw for directly attaching the plate frame 110 to a construction surface such as a wall surface. And a scissor fitting locking hole 134 for engaging a scissor fitting (not shown) used when attaching to a wall panel or the like forming the construction surface.
[0036]
Further, at the four corners of the plate frame 110, decorative plate locking holes 135 for locking the locking protrusions 123 protruding from the rear surface of the decorative plate 120 are provided. The decorative plate 120 can be detachably attached so as to cover the front surface of the plate frame 110 by inserting and locking.
[0037]
The decorative plate 120 is formed using an insulating synthetic resin, and has a rectangular main portion 121 that covers the front surface of the plate frame 110, and the rear of the main portion 121 from the periphery to the entire periphery. It is formed in a substantially box shape in which the side wall 122 projecting in a continuous manner is formed. The locking projections 123 are projected from the four corners on the rear surface side of the main portion 121. In addition, an opening window 121 a that exposes the front surface of the container 1 attached to the plate frame 110 is provided at the center of the main part 121.
[0038]
The distance between the opposing surfaces of the side wall 122 of the decorative plate 120 is larger than the width dimension of the corresponding portion of the plate frame 110. That is, when the decorative plate 120 is attached to the front surface side of the plate frame 110 disposed on the construction surface, the plate frame 110 fits inside the decorative plate 120, and the leading edge of the side wall 122 of the decorative plate 120 is substantially on the construction surface. Abut. As a result, the abutment surface between the plate frame 110 and the decorative plate 120 does not protrude forward from the construction surface, and the abutment line between the two is hardly visible from the side surface, improving the appearance. In addition, a plurality of regulating ribs 124 are provided on the inner side surface of the side wall 122 of the decorative plate 120 to contact the side surface of the plate frame 110 and prevent the decorative plate 120 from being displaced relative to the plate frame 110.
[0039]
By the way, on the outer surface of both the frame pieces 113a and 113b of the plate frame 110, there are an inclined surface 113c that inclines so as to protrude outward toward the rear, and an overhang portion 113d that protrudes outward continuously from the inclined surface 113c. Is formed. Further, a rib 125 whose rear end surface comes into contact with the front surface of the overhanging portion 113d protrudes from the inner surface of the upper and lower side walls 122 of the decorative plate 120, and the rib 125 prevents the decorative plate 120 from rattling. When attaching the decorative plate 120 to the plate frame 110, the regulation ribs 124 of the decorative plate 120 are guided by the inclined surfaces 113c formed on the frame pieces 113a and 113b of the plate frame 110, so that the attachment is easy.
[0040]
A pair of cutout portions 126 are provided on one of the upper and lower side walls 122 of the decorative plate 120. A direction in which a jig (such as a tip of a minus driver) is inserted into the cutout portion 126 to separate the decorative plate 120 from the plate frame 110. When a (forward-facing) force is applied, the engagement state between the locking projection 123 of the decorative plate 120 and the decorative plate locking hole 135 of the plate frame 110 is released, and the decorative plate 120 can be removed from the plate frame 110. . In the frame piece 113b of the plate frame 110, a relief portion 136 that is recessed inward from the inclined surface 113c is provided at a position corresponding to the notch portion 126, and the jig inserted into the notch portion 126 can be escaped and inserted to the back. Thus, it is easy to apply a force when removing the decorative plate 120. Further, a rib 137 thinner than the protruding portion 113 d is extended from the rear surface side end portion of the relief portion 136 to the extent that it does not protrude from the cutout portion 126 of the decorative plate 120. That is, there is a risk of scratching the construction surface by applying a force to the jig that is inserted into the notch 126 with the portion that abuts the construction surface as a fulcrum, but it is inserted into the notch 126 by providing the rib 137. When the jig comes into contact with the rib 137 and the decorative plate 120 is removed from the plate frame 110, the work surface can be prevented from being damaged by the jig.
[0041]
On the rear surface side of the decorative plate 120, protruding strips 128 a to 128 c that are respectively inserted into three slits 118 a to 118 c provided in the plate frame 110 when attached to the plate frame 110 are arranged in a row. Here, the dimension of each protrusion piece 128a-128c is the state inserted in each slit 118a-118c of the plate frame 110, between the inner peripheral surface of slit 118a-118c, and each protrusion piece 128a-128c. The dimensions are set so that only a slight gap is generated. That is, in a state where the decorative plate 120 is attached to the plate frame 110 to which the container body 1 is attached, the three protrusion pieces 128a to 128c are fitted into the slits 118a to 118c of the plate frame 110, and the slits 118a to 118c Since only a slight gap is generated between the peripheral surface and each of the protrusion pieces 128a to 128c, the movement (flexure) of the movable beam portion 115 of the plate frame 110 is restricted. As a result, the movement of the movable beam 115 is restricted as described above even when an impact is applied such that the plug inserted into the outlet is pulled out with an abnormally large force when the outlet is used as the body 1. For this reason, the attachment claw 2 of the container body 1 and the retaining grooves 115a and 114a of the movable beam portion 115 and the fixed beam portion 114 are not easily disengaged.
[0042]
By the way, although the synthetic resin decorative plate 120 is used in this embodiment, a metallic decorative plate may be used. In the case of a metal decorative plate (not shown), it is not possible to provide a locking projection 123 like the synthetic resin decorative plate 120.
By the way, the container body 1 is constructed in a state in which the rear end portion is embedded in the construction surface while being attached to the plate 100. Moreover, since the electric wire insertion port 15 is opened on the rear surface of the container body 1 and the electric wire is drawn out to the rear surface side of the container body 1, it is required to secure a required space on the rear surface of the container body 1. In particular, when the construction surface is a concrete wall, it is necessary to embed a box in order to secure a space for drawing out the electric wire in the wall. Although this type of box can be a rectangular parallelepiped with the front open, a simple bottomed cylindrical shape made of synthetic resin can be used. That is, a box whose front surface is opened in a circular shape is used. By the way, in order to make the opening area as small as possible by using this type of box, it is desirable to match the shape of the container 1 with the shape of the box. Therefore, the chamfered portions 4 are formed at the four corners when the container body 1 is viewed from the front side, so that the corners of the container body 1 do not hit the box. Specifically, in the case of connecting the above-described two unit bodies 1 each having a unit size, the inner peripheral surface of the box B is in a positional relationship as shown by a one-dot chain line in FIG. By doing so, the corner of the container 1 does not hit the box Bx.
[0043]
(Embodiment 2)
In the first embodiment, the two engagement holes 22a are formed in the assembly piece 22, but in this embodiment, only one engagement hole 22a is provided in the assembly piece 22, as shown in FIG. Therefore, only one assembly claw 11 is provided in the body 10. Other configurations and functions are the same as those of the first embodiment.
[0044]
(Embodiment 3)
In this embodiment, as shown in FIG. 13, only one engagement hole 22a is provided in the assembly piece 22, but a reinforcing piece 22c is extended forward from the rear edge of the engagement hole 22a. . The assembly pawl 11 provided on the body 10 has a bifurcated rear end so as to engage with the reinforcing piece 22c. In this configuration, the thick reinforcing portion 22b is also formed on the reinforcing piece 22c, and the crack of the assembly piece 22 due to the formation of the weld line can be prevented more reliably. Other configurations and functions are the same as those of the first embodiment.
[0045]
(Embodiment 4)
In the above-described embodiment, the assembly claws 11 protrude from the upper and lower surfaces of the body 10, but as shown in FIGS. 14 and 15, in this embodiment, a pair of assembly claws are provided on the left and right sides of the body 10. 11 is projected. That is, the notches 17 are formed on the outer surfaces of the upper and lower ends of the left and right side walls of the body 10, and the assembly claws 11 project from the notches 17. On the other hand, the cover 20 is provided with four assembly pieces 22 that can be engaged with the assembly claws 11. The depth of the notch 17 is set to be equal to the thickness dimension of the assembly piece 22, and when the engagement holes 22 a of the assembly piece 22 are engaged with the assembly claws 11, the left and right side surfaces of the body 10 and the assembly piece 22. And become to be the same. Other configurations and functions are the same as those of the first embodiment, and in this embodiment, the body 10 and the cover 20 are coupled at four locations, so that the coupling can be performed more firmly.
[0046]
(Embodiment 5)
Each embodiment mentioned above uses the container 1 of the unit size, and each insertion part 24 was provided with the two insertion ports 25, but this embodiment is shown in FIG. As described above, the insertion portion 24 is provided with an insertion port 26 having a different shape in addition to the two insertion ports 25. The insertion port 26 is for inserting a plug blade for the ground electrode. In this configuration, since the three insertion openings 25 and 26 are provided, the size of the unit 1 with the unit size becomes insufficient, so that the unit size with two units (that is, the mounting size for two units with one unit size) ) Is used.
[0047]
Since the ground electrode needs to be insulated and separated from the other two electrodes, three storage chambers 13 a to 13 c are formed in the body 10 via the partition wall 12. The two storage chambers 13a and 13b are further divided into two chambers via a partition wall 12b having a slit 12a. In the body 10, the other two-pole blade receiving members 30 are arranged on both sides of the ground-pole blade receiving member 40.
[0048]
The blade receiving member 30 includes a pair of spring pieces 31 opposed to each other, a spring piece 32 opposed to one side surface of both the spring pieces 31, and a U-shaped coupling piece 33 that continuously couples the spring pieces 31 and 32 together. With. A bridging piece 38 is continuously extended from a portion of the open end of the connecting piece 33 adjacent to one spring piece 31 so as to protrude away from the other spring piece 32, and is connected to the tip of the bridging piece 38. The terminal piece 35 is continuously formed integrally. The terminal piece 35 is formed in a U shape with the rear side (lower side in FIG. 16) opened, and a locking spring 36 is disposed in the terminal piece 35. The spring pieces 31 and 32 and the terminal piece 35 are separated by the partition wall 12b, and a part of the bridging piece 38 is passed through the slit 12a.
[0049]
The blade receiving member 40 for the grounding electrode does not need to receive a flat type plug blade and only needs to receive a pin type plug blade, and thus includes a pair of spring pieces 41 opposed to each other, but a spring opposed to the side surface of the spring piece 41. There is no piece. A connecting piece 43 formed in a U-shape with the rear side opened is continuously formed on the side of both spring pieces 41, and each leg piece of the connecting piece 43 is cut open at the rear of the connecting piece 43. Each pair of terminal pieces 45 is formed continuously and integrally. The lock spring 46 is disposed between the pair of terminal pieces 45.
[0050]
A wire insertion port 15 (see FIG. 6) is formed on the rear wall of the body 10 so that an electric wire can be introduced between the lock springs 36, 46 and the terminal pieces 35, 45. Further, in order to be able to pull out the connected electric wire, release buttons 37 and 47 are arranged in the body 10 and are inserted into the body 10 through an operation hole 16 (see FIG. 6) formed in the rear wall of the minus driver. If the release buttons 37 and 47 are pushed by inserting a tool such as the tip of the wire, the lock springs 36 and 46 can be bent to pull out the electric wire.
[0051]
As the cover 20, as shown in FIG. 17, a cover in which only the flat plug blade insertion opening 25 a is formed in the insertion opening 25 may be used. Other configurations and functions are the same as those of the first embodiment.
(Embodiment 6)
In the fifth embodiment, the two engagement holes 22a are formed in the assembly piece 22, but in this embodiment, only one engagement hole 22a is provided in the assembly piece 22 as shown in FIGS. Yes. Therefore, only one assembly claw 11 is provided in the body 10. Other configurations and functions are the same as those of the fifth embodiment.
[0052]
(Embodiment 7)
As shown in FIG. 20, the present embodiment is provided with two plugs 24 having the same configuration as that of the fifth embodiment. Therefore, the unit 1 has a unit size of three. Three storage chambers 13 a to 13 c are formed inside the body 10 through the partition wall 12, and the storage chamber 13 c in which the blade receiving member 60 of the ground electrode is stored is an elongated shape along the longitudinal direction of the body 1. And the constricted part 13d is formed in the intermediate part. Further, the blade receiving member 50 is stored in each of the other two storage chambers 13a and 13b, and the partition wall 12b having slits 12a at two locations in the middle so as to divide the storage chamber 13 into three. Is formed.
[0053]
(Embodiment 8)
In the present embodiment, as shown in FIG. 21, only one engagement hole 22 a is provided in the assembly piece 22. Therefore, only one assembly claw 11 is provided on the body 10.
Further, as shown in FIG. 22, a cover 20 having a configuration in which only the flat plug blade insertion port 25a is provided in the insertion port 25 can be used. Other configurations and functions are the same as those of the seventh embodiment.
[0054]
(Embodiment 9)
As shown in FIG. 23, the present embodiment is an example in which the blade receiving member 60 for the grounding electrode is omitted from the configuration of the seventh embodiment, and the grounding electrode 26 is omitted as the cover 20. And it is provided with two insertion parts 24 without a grounding electrode.
In this configuration, the body 10 has the same shape as that used in the seventh embodiment, and the shape of the cover 20 is different. That is, only the point that the blade receiving member 60 is not used and the shape of the cover 20 are different, and the other members can be the same as those of the seventh embodiment. Variety development becomes easier.
[0055]
Also in this configuration, as shown in FIG. 24, the cover 20 having a configuration in which only the flat plug blade insertion port 25a is provided in the insertion port 25 can be used. Therefore, it becomes possible to further expand various products. Other configurations and functions are the same as those of the seventh embodiment.
(Embodiment 10)
In this embodiment, as shown in FIG. 25, the assembly piece 22 is provided with only one engagement hole 22a. Therefore, only one assembly claw 11 is provided on the body 10.
[0056]
Moreover, as shown in FIG. 26, the cover 20 of a structure provided with only the flat type plug blade insertion port 25a in the insertion port 25 can also be used. Other configurations and functions are the same as those of the seventh embodiment.
The outlets of various shapes described above can be attached using the plate 100 described in the first embodiment.
[0057]
Incidentally, the plate frame 110 described above is made of synthetic resin, but a metal plate frame 150 as shown in FIG. 27 may be used. The metal plate frame 150 has three holding claws 152 protruding from the lower edge (left side edge in FIG. 27A) of the opening window 151, and the upper edge (right side in FIG. 27A). Also, three holding claws 153 are projected from the edge. These holding claws 152 and 153 are for holding the container body 1 by being inserted into the mounting holes 3 provided in the container body 1. The holding claws 153 are plastically deformed around one of the holding claws 153. The holding claw 153 is continuously and integrally connected to the frame piece 155 a via the arm 154 so that it can be inserted into the mounting hole 3. Further, a push piece 156 protrudes from the upper side of the holding claw 153 (the right side in FIG. 27A).
[0058]
Therefore, after the holding claw 152 provided on the left frame piece 155b in FIG. 27A is inserted into one mounting hole 3 of the body 1, the holding piece 153 is aligned with the other mounting hole 3 and the pressing piece When 156 is pushed with the tip of a minus driver or the like, the arm 154 is plastically deformed and the holding claw 153 is inserted into the mounting hole 3.
The other structure of the plate frame 150 is the same as that of the synthetic resin plate frame 110, and the pair of horizontal pieces 157 are provided with a box hole 132, a screw insertion hole 133, and a scissor fitting locking hole 134, respectively. Further, in order to lock the locking projections 123 of the decorative plate 120, cut-out decorative plate locking grooves 135 ′ are provided at the four corners of the plate frame 150, and a metal decorative plate is attached to the horizontal piece 157. A mounting screw hole 139 into which the mounting screw is screwed is also provided. Further, connection notches 158a are formed at both corners of the upper edge of the plate frame 150 (left edge of FIG. 27A), and connection notches 158a are formed at both corners of the lower edge (right edge of FIG. 27A). Since the connecting projection 158b is formed so that the two plate frames 150 are arranged side by side and the connecting projection 158b is engaged with the connecting notch 158a, the two plate frames 150 can be relatively aligned. . That is, if two single-type plate frames 150 are used for alignment, it is possible to construct the same shape as the double-type plate frame 150. In addition, reinforcing pieces 159 bent to the front side are formed on the upper and lower edges of the plate frame 150 (both left and right edges in FIG. 27A), so that the deformation of the plate frame 150 is prevented.
[0059]
【The invention's effect】
According to the first and second aspects of the invention , the front end is inserted into a rectangular opening window formed on the plate fixed to the construction surface, and the rear end is embedded in the construction surface. A flat plug blade insertion slot into which a flat flat plug blade is inserted and a pin type plug blade insertion slot into which a pin-shaped pin blade is inserted. The insertion port with the shape is open on the front of the body, and by providing an insertion port with a shape in which the flat type blade insertion port and the pin type blade insertion port are connected, Both the mold plug blade and the pin type plug blade can be used, and there is an advantage that a plurality of types of plugs can be used without using an adapter.
[0060]
Further, the body is composed of a rear end body and a front end cover having an insertion port, and an assembly claw provided on one side of the body and the cover and an assembly hole provided on the other side are engaged with each other to form a body. And the cover are combined , and the body and cover are connected by the concave / convex engagement of the assembly claw and the assembly hole. There is an advantage that productivity is improved. In addition, it is not necessary to use a metal member when connecting the body and the cover, and it is possible to increase the insulation distance between the charging part inside the container and the other metal member, and the vertical dimension of the container is 50 mm, When the dimension is set to about 25 mm, the safety required by the IEC standard can be ensured even when the withstand voltage is 250V. In particular, in the invention of claim 1, two assembly claws are formed on each side surface of the container body, and two assembly holes are formed in one assembly piece. Since each assembly claw is formed in a bifurcated shape so as to be fitted with a reinforcing piece projecting forward from the rear edge of the assembly hole, the coupling strength per location is increased. There is an advantage.
[0061]
As in the invention of claim 3 , the body that houses the blade receiving member that receives the plug blade of the plug is formed of a synthetic resin having tracking resistance, and the cover including the assembly piece is formed of a synthetic resin having elasticity. Since the body has tracking resistance and the cover has elasticity, there is an advantage that each quality requirement can be satisfied.
[0063]
If the reinforcing part formed thicker than the other part is provided at the tip of the assembly piece as in the invention of claim 4 , the strength of the tip part where the weld line is easily formed at the time of molding the assembly piece There is an advantage that the strength of the assembly piece can be maintained by increasing.
[0064]
As in the fifth aspect of the present invention, in the case where the attachment portion coupled to the holding portion formed on the plate at a unit pitch is formed on the side surface of the vessel body, the attachment position of the vessel body with respect to the plate is arbitrarily selected. There is an advantage that it becomes possible.
As in the invention of claim 6 , the plate is made of metal, and holding claws as holding portions are formed on both sides of the opening window, and the plate is plastically deformed as an attachment portion formed on the side surface of the vessel body. In the case where the holding claw is concavo-convexly connected to the mounting hole, there is an advantage that fire resistance and the like are easily secured by using a metal plate.
[0065]
As in the invention of claim 7 , the plate is a synthetic resin molded product, and holding grooves as holding portions are formed on both sides of the opening window, respectively, and the plate is bent by utilizing the elasticity of the plate. If the mounting claws as projections projecting on the side of the plate are connected to the holding hole in a concave-convex manner, it is easy to attach the container to the plate, and there is no plastic deformation in the connection between the plate and the container. There is an advantage that it can be attached and detached many times, and the layout can be easily changed and the container can be easily replaced.
[0066]
As in the invention of claim 8 , holding grooves are respectively formed in the fixed beam portion and the movable beam portion projecting on the back side of the plate so as to face each side surface of the container, and the movable beam portion is flexible. Attaching the other side of the device to the holding groove of the movable beam while bending the movable beam with the mounting claw on one side of the device engaged with the holding groove of the fixed beam In the case where the claws are engaged, the body is attached to the plate by utilizing the bending of the movable beam portion, so that there is an advantage that the body can be easily attached to the plate without requiring a separate tool or the like. .
[0067]
As in the ninth aspect of the invention, the tool is inserted into the movable beam portion side by using a tool inserted through a tool removal hole formed in the vicinity of the fixed beam portion, thereby bending the movable beam portion. In the case of removing from the plate, it is possible to remove the container from the plate, so that there is an advantage that it is possible to easily cope with changes in the layout.
[0068]
As in the invention of claim 10 , the terminal part electrically connected to the blade receiving member disposed in the container and connected to the plug blade of the plug is accommodated in the container, and the terminal part is provided in the container. In the case where the wire inserted from the wire insertion port is held by a locking spring that applies a spring force in a direction crossing the insertion direction of the wire, the wire is held by the locking spring if the wire is inserted into the wire insertion port. Therefore, there is an advantage that the screw tightening work as in the case of using a terminal screw is unnecessary, and the wiring work becomes easy.
[0069]
In the case where the terminal piece constituting the terminal together with the lock spring is continuously formed integrally with a part of the blade receiving member as in the invention of claim 11, the terminal can be formed continuously and integrally on the blade receiving member. There is an advantage that it is easy to manufacture the charging member disposed inside the container.
As in the twelfth aspect of the invention, the blade receiving member disposed in the container body and connected to the plug blade of the plug is inserted from a spring piece elastically contacting the plug blade of the plug and an electric wire insertion port provided in the container body. The blade receiving member is formed by punching and folding a single sheet metal, with a terminal piece for holding the electric wire between the locking spring and a bridging piece for continuously connecting the spring piece and the terminal piece together. There is an advantage that it can be manufactured by a song, and an operation for caulking the blade receiving portion is unnecessary.
[0070]
As in a thirteenth aspect of the present invention, the spring pieces elastically contacting the plug blades of the plug are a pair of first spring pieces that sandwich the pin-type plug blades, and the flat type plug blades are side surfaces of the first spring pieces. With one second spring piece sandwiched between them, there is an advantage that two kinds of plug blades can be received by the three spring pieces and a blade receiving portion with low material cost can be formed. is there.
[0071]
As in the invention of claim 14 , a flat type plug blade insertion port into which a flat plate type plug blade is inserted and a pin type plug blade insertion port into which a pin type pin type blade is inserted are formed on the front surface of the cover. The established one has the advantage that it can cope with different types of plugs without using an adapter.
As in the invention of claim 15, the insertion portion into which the plug blade of one plug is inserted with the two insertion openings as a set, or in the case of two insertions as in the invention of claim 16 The number of openings formed as an insertion port is one in which a plug blade into which a plug blade of one plug is inserted is formed by combining a mouth and an insertion port for a ground electrode provided separately from both insertion ports. There is an advantage that can be reduced.
[0073]
As in the invention of claim 17 , the rear part of the container is housed in a box whose front surface is opened in a circular shape and embedded in the construction surface, and the front part is formed in a rectangular shape at the corner of the container. In the case where the chamfered portion is formed in a shape along the inner peripheral surface of the box, there is an advantage that a relatively small box can be used because the corner portion of the container does not hit the box by providing the chamfered portion. is there.
[Brief description of the drawings]
FIG. 1 is an exploded perspective view showing a first embodiment of the present invention.
FIG. 2 is a front view of the above.
FIG. 3 is a side view of the above.
FIG. 4 is a plan view of the same.
FIG. 5 is a front view showing a state in which the cover is removed.
FIG. 6 is a cross-sectional view of the above.
FIG. 7 is a front view showing another cover used for the above.
FIG. 8 is an exploded perspective view showing a plate to which the same is attached.
FIG. 9 is an exploded perspective view showing a plate for mounting the same.
FIG. 10 is an operation explanatory view showing the mounting procedure of the above.
11A and 11B show a state in which the above is attached to a plate frame, where FIG. 11A is a front view, FIG. 11B is a longitudinal sectional view, and FIG. 11C is a transverse sectional view.
FIG. 12 is a plan view showing Embodiment 2 of the present invention.
FIG. 13 is a plan view showing Embodiment 3 of the present invention.
FIG. 14 is a front view showing a state in which a cover showing Embodiment 4 of the present invention is removed.
FIG. 15 is a partially cutaway side view of the above.
FIG. 16 is an exploded perspective view showing Embodiment 5 of the present invention.
FIG. 17 is a perspective view showing another cover used in the above.
FIG. 18 is a plan view showing Embodiment 6 of the present invention.
FIG. 19 is an exploded perspective view of the above.
FIG. 20 is an exploded perspective view showing Embodiment 7 of the present invention.
FIG. 21 is an exploded perspective view showing Embodiment 8 of the present invention.
FIG. 22 is a perspective view showing another cover used in the above.
FIG. 23 is an exploded perspective view showing Embodiment 9 of the present invention.
FIG. 24 is a perspective view showing another cover used in the above.
FIG. 25 is an exploded perspective view showing Embodiment 10 of the present invention.
FIG. 26 is a perspective view showing another cover used for the above.
FIGS. 27A and 27B show a state in which a container is attached to a metal plate frame, where FIG. 27A is a front view, FIG. 27B is a transverse sectional view, and FIG. 27C is a longitudinal sectional view.
[Explanation of symbols]
1 Body 2 Mounting Claw 3 Mounting Hole 4 Chamfered Part 10 Body 11 Assembly Claw 15 Wire Insertion Port 20 Cover 22a Assembly Hole 22b Reinforcement Part 24 Insertion Port 25 Insertion Port 25a Flat Plug Blade Insertion Port 25b Pin Type Plug Blade Insertion Port 30 Blade receiving member 31 Spring piece 32 Spring piece 34 Bridging piece 35 Terminal piece 36 Locking spring 40 Blade receiving member 41 Spring piece 45 Terminal piece 50 Blade receiving member 60 Blade receiving member 100 Plate 111 Opening window 114 Fixed beam 114a Holding Groove 114c Instrument removal hole 115 Movable beam portion 115a Holding groove 121a Open window 152 Holding claw 153 Holding claw Bx Box

Claims (17)

It has a container that is held on the plate with the front end inserted into a rectangular opening window formed on the plate fixed to the construction surface, and the rear end is embedded in the construction surface. The front of the device has an insertion port with a shape in which a flat plug blade insertion port into which a flat flat plug blade is inserted and a pin type blade insertion port into which a pin-shaped pin blade is inserted. In the outlet established in the above , the body consists of a rear end body and a front end cover having an insertion port, and an assembly claw provided on one side of the body and the cover and an assembly hole provided on the other end As a result, the body and the cover are joined together, two assembly claws project from each outer surface of the body, assembly holes are provided in the assembly pieces protruding from the cover, and two assembly claws are provided in one assembly piece. An outlet characterized by a hole . It has a container that is held on the plate with the front end inserted into a rectangular opening window formed on the plate fixed to the construction surface, and the rear end is embedded in the construction surface. The front of the device has an insertion port with a shape in which a flat plug blade insertion port into which a flat flat plug blade is inserted and a pin type blade insertion port into which a pin-shaped pin blade is inserted. In the outlet established in the above, the body consists of a rear end body and a front end cover having an insertion port, and an assembly claw provided on one side of the body and the cover and an assembly hole provided on the other end As a result, the body and cover are joined together, one assembly pawl is projected on each outer surface of the body, the assembly hole is provided in an assembly piece protruding from the cover, and projects forward from the rear edge of the assembly hole. The assembly claw is formed in a bifurcated shape so as to be fitted with the provided reinforcing piece. Electrical outlet that. The body for housing the blade receiving member for receiving the plug blade of the plug is formed of a synthetic resin having tracking resistance, and the cover including the assembly piece is formed of a synthetic resin having elasticity. The outlet according to claim 2 . The outlet according to any one of claims 1 to 3, wherein a reinforcing portion formed thicker than other portions is provided at a tip portion of the assembly piece . The outlet according to claim 1 or 2, wherein a mounting portion coupled to a holding portion formed at a unit pitch is formed on a side surface of the container body . The plate is made of metal, and holding claws are formed as holding parts on both sides of the opening window, and the holding claws are connected to the mounting holes as mounting parts formed on the side of the container by plastic deformation of the plate. The outlet according to claim 5 , wherein the outlet is provided. The plate is a synthetic resin molded product, and holding grooves are formed as holding parts on both sides of the opening window, and the plate is bent by utilizing the elasticity of the plate as a mounting part protruding from the side of the container 6. The outlet according to claim 5, wherein the mounting claw is unevenly coupled to the holding hole . A holding groove is formed in each of the fixed beam portion and the movable beam portion projecting on the back side of the plate so as to face each side surface of the vessel body, and the movable beam portion has flexibility so that the fixed beam portion The mounting claw on the other side of the container is engaged with the holding groove of the movable beam while the movable beam is bent while the mounting claw on the one side of the container is engaged with the holding groove. The outlet according to claim 7 . Claims characterized in that the instrument is removed from the plate by bending the movable beam part by pressing the body against the movable beam part side using a tool inserted through the instrument removal hole formed in the vicinity of the fixed beam part. Item 7. The outlet according to item 7 . A terminal part electrically connected to a blade receiving member disposed in the container and connected to the plug blade of the plug is accommodated in the container, and the terminal part is an electric wire inserted from a wire insertion port provided in the container. 3. The outlet according to claim 1 , wherein the outlet is held by a locking spring that applies a spring force in a direction crossing the insertion direction of the electric wire . 11. The outlet according to claim 10, wherein a terminal piece that constitutes a terminal together with the locking spring is formed integrally with a part of the blade receiving member . The blade receiving member disposed in the container and connected to the plug blade of the plug is formed between the spring piece elastically contacting the plug blade of the plug and the wire inserted from the wire insertion port provided in the container between the lock spring. a terminal strip for clamping in, outlet according to claim 10, further comprising a bridging piece which interconnects the spring piece and the terminal piece continuously integrally to feature. As a spring piece that elastically contacts the plug blade of the plug, one second spring piece that holds the pin type blade between the pair of first spring pieces and the side surface of the first spring piece. An outlet according to claim 12, further comprising a spring piece . A flat-type plug blade insertion slot into which a flat flat plug blade is inserted and a pin-type plug blade insertion slot into which a pin-shaped pin-type plug blade is inserted are provided on the front surface of the cover. The outlet according to claim 1 or claim 2 . The outlet according to claim 14, wherein an insertion portion into which a plug blade of one plug is inserted is formed by combining two insertion openings . 15. An insertion portion into which a plug blade of one plug is inserted is formed by combining two insertion ports and an insertion port for a ground electrode provided separately from both insertion ports. Outlet. The rear part of the container is housed in a box whose front is opened in a circle and embedded in the construction surface, and the corner of the container whose front is formed in a rectangular shape follows the inner peripheral surface of the box. outlet according to claim 1 or claim 2, wherein the chamfered portion is formed by forming.

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