JP2024036252A - Regulatory components and electrical equipment units - Google Patents

Abstract

The present invention provides a regulating member and an electrical equipment unit that make it difficult for an adapter to be removed from a DC duct. A regulating member K1 regulates removal of an electrical device 94 from a DC duct system 100 that has a DC duct 3 to which the electrical device 94 can be attached and detached and supplies DC power to the electrical device 94. The regulating member K1 includes a wall portion K2, a lock portion K3, and an insertion portion K5. The wall portion K2 is formed in an annular shape surrounding the side surface adjacent to the end surface of the electrical device 94 facing the DC duct 3. The lock part K3 switches between a locked state that restricts separation from the DC duct 3 and an unlocked state that allows separation from the DC duct 3 using a specific key K4. The insertion portion K5 is inserted into the DC duct 3 and prevents the DC duct 3 from rotating. The regulating member K1 is attached to the DC duct 3 in such a manner that the wall portion K2 surrounds the side surface of the electrical device 94 when the lock portion K3 is in the locked state, and regulates removal of the electrical device 94. [Selection diagram] Figure 1

Description

The present disclosure generally relates to a regulating member and an electrical equipment unit. More specifically, the present disclosure relates to a regulating member and an electrical equipment unit applied to a DC duct system.

Patent Document 1 discloses a wiring duct plug. This plug comes into contact with the conductor of the wiring duct by inserting its contact into the duct body of the wiring duct. The contact of the plug is electrically connected to the core wire of the power supply cable. As a result, alternating current voltage is supplied from the wiring duct to the power supply cable side via the plug.

Japanese Patent Application Publication No. 2015-53231

By the way, if the wiring duct system (wiring duct) is a DC duct system that supplies DC power instead of AC power, it may be installed at a position that is relatively easily accessible to the user. In that case, there is a possibility that the plug (adapter) may be taken out of the DC duct by the user or the like without permission.

The present disclosure has been made in view of the above reasons, and an object of the present disclosure is to provide a regulating member and an electrical equipment unit that prevent an adapter from being taken out from a DC duct.

A regulating member according to one aspect of the present disclosure regulates removal of the electric device from a DC duct system that has a DC duct to which the electric device can be attached and detached and supplies DC power to the electric device. The regulating member includes a wall portion, a lock portion, and an insertion portion. The wall portion is formed in an annular shape surrounding a side surface adjacent to an end surface of the electrical device that faces the DC duct. The lock section switches between a locked state that restricts withdrawal from the DC duct and an unlocked state that allows withdrawal from the DC duct using a specific key. The insertion portion is inserted into the DC duct and prevents rotation of the DC duct. The regulating member is attached to the DC duct in such a manner that the wall surrounds a side surface of the electrical device when the lock is in the locked state, and regulates removal of the electrical device.

An electrical equipment unit according to one aspect of the present disclosure includes the regulating member and the electrical equipment.

According to the regulating member and electrical equipment unit of the present disclosure, there is an advantage that the adapter is less likely to be taken out from the DC duct.

FIG. 1 is a perspective view (including a partial cross section) of main parts of a lock system, an adapter, and a DC duct system including a regulating member according to a first embodiment. FIG. 2 is a perspective view (including a partial cross section) of the regulating member shown in FIG. 1 separated from the adapter. FIG. 3 is a perspective view of the regulating member same as above seen from the rear side. FIG. 4 is a cross-sectional view of a main part in which the above restriction member is attached to the above DC duct system and the lock part is in a locked state. FIG. 5A is a perspective view (including a partial cross section) of a main part of the DC duct system in a state where the above adapter is attached to the above DC duct system. FIG. 5B is a diagram for explaining the rear surface of the adapter when the adapter is attached to the DC duct system. FIG. 6 is a perspective view of an application example of the above DC duct system. FIG. 7 is a front view of the above application example. FIG. 8 is a right side view of the above application example. FIG. 9 is a plan view of the above application example. FIG. 10 is an exploded perspective view of the main parts of the above application example. FIG. 11 is an exploded perspective view of the main parts of the above application example. 12A and 12B are cross-sectional views corresponding to the IX-IX cross section in FIG. 7 of the above application example. FIG. 13 is a block diagram showing a configuration example of a system that supplies power to a plurality of electrical devices using the DC duct system as described above.

A lock system, an adapter, and a DC duct system including the regulating member of the present disclosure will be described with reference to the drawings. However, the embodiments described below are only some of the various embodiments of the present disclosure. The embodiments described below can be modified in various ways depending on the design, etc., as long as the objective of the present disclosure can be achieved. Furthermore, each figure described in the following embodiments is a schematic diagram, and the ratio of the size and thickness of each component in the figure does not necessarily reflect the actual size ratio. . Furthermore, the embodiments and modifications described below may be realized in appropriate combinations.

(Embodiment 1)
(overview)
First, an overview of the adapter 5 and the DC duct system 100 to which the regulating member K1 according to the present embodiment is applied will be described.

FIG. 1 is a perspective view of the adapter 5 and a part of the DC duct system 100, showing a state in which the regulating member K1 is attached to the DC duct system 100. FIG. 2 is a perspective view of the adapter 5 and a part of the DC duct system 100, showing a state in which the regulating member K1 is separated from the DC duct system 100. FIG. 6 is a perspective view of an application example of the DC duct system 100, FIG. 7 is a front view of the application example, FIG. 8 is a right side view of the application example, and FIG. 9 is a plan view of the application example. It is.

As shown in FIG. 1, the regulating member K1 according to the present embodiment is configured to regulate removal of the adapter 5 from the DC duct system 100. Here, the regulating member K1 is configured to be externally attached to the adapter 5 that is connected to the DC duct system 100.

The DC duct system 100 includes a DC duct 3 to which an adapter 5 to which a connector 95 (see FIG. 13) is connected can be attached and detached. Here, the DC duct 3 includes a duct rail 31 (see FIGS. 1, 2, and 4) and a conductive bar 32 (see FIGS. 1, 2, and 4). Here, as an example, the conductive bar 32 can be electrically connected to the adapter 5 at any position in the attachment area continuous in the length direction of the duct rail 31. In other words, the adapter 5 is attached at any position in the attachment area continuous in the length direction of the DC duct 3. A connector 95 for receiving DC power can be connected to the adapter 5 . The DC duct system 100 supplies DC (direct current) power to the connector 95 via the adapter 5. The conductive bar 32 is housed in the duct rail 31.

The above-mentioned attachment area is an area provided on the surface or inside of the duct rail 31. The DC duct 3 of this embodiment includes a recess 3110 (see FIGS. 1 and 2) formed along the length direction of the duct rail 31. More specifically, the recess 3110 is formed across both ends of the duct rail 31 in the length direction. The attachment area coincides with the area where the recess 3110 is provided.

As shown in FIG. 13, the connector 95 is a connector of the electrical device 94 (or of a cable connected to the electrical device 94). By connecting the connector 95 to the adapter 5, power can be supplied from the DC duct 3 to the electrical equipment 94. Therefore, compared to the case where power is supplied to the electric device 94 from a power outlet or from a power tap that distributes power from a power outlet, wiring management can be improved.

The type of electrical equipment 94 referred to here is not particularly limited. Examples of the electrical equipment 94 include computer terminals (personal computers, smartphones, tablet terminals, etc.), computer terminal accessories (monitors, speakers, microphones, etc.), lighting equipment (desk lights, etc.), network cameras, sensors (temperature sensors, etc.) , humidity sensors, illuminance sensors, etc.), game consoles, and air conditioners (desktop fans, etc.). Adapter 5 may also be included in electrical equipment 94 .

The DC duct system 100 is used, for example, by being fixed to a fixture. Fixtures is a general term for equipment such as furniture and fixtures used in residences or non-residents. Examples of fixtures are desks, tables, workbenches, etc. that are used as platforms on which things are placed. Other examples of fixtures include shelves, boxes, dressers, beds, whiteboards, screens, partitions, and chaise lounges.

In FIGS. 6 to 13 and the like, a case where the DC duct system 100 is used while being fixed to a desk 7 as a fixture will be described as an example. As shown in FIG. 6, the desk 7 includes a top plate 71 that is rectangular in plan view, two legs 72, and two support stands 73. In the following, the direction along the long side of the top plate 71 is defined as the left-right direction, the direction along the short side of the top plate 71 is defined as the front-back direction, and the direction along the normal line of the top plate 71 is defined as the up-down direction. may be stipulated. However, these regulations are not intended to limit the direction in which the DC duct system 100 is used. In addition, the arrows representing front and rear, left and right, and top and bottom in FIGS. 1, 2, 4, 6 to 13, etc. are shown only for the purpose of explanation and have no substance.

By the way, as described above, the DC duct system 100 may be installed in a fixture such as the desk 7. In other words, from the viewpoint of convenience, the adapter 5 may be installed in a position that is relatively easy to reach for people (for example, users who use the power supply from the DC duct 3). In that case, there is a possibility that the adapter 5 may be taken out of the DC duct 3 by someone (such as a user) without permission.

On the other hand, as shown in FIG. 1, the regulating member K1 includes a wall part K2 formed in an annular shape surrounding the side surface of the adapter 5, and a lock part K3 whose locked state and unlocked state are switched by a specific key K4. , is provided. The regulating member K1 is attached to the DC duct 3 in such a manner that the wall part K2 surrounds the side surface of the adapter 5 when the lock part K3 is in the locked state, and regulates removal of the adapter 5.

According to this configuration, the restriction member K1 restricts removal of the adapter 5 unless the lock part K3 is unlocked with a specific key K4. As a result, the adapter 5 is less likely to be taken out from the DC duct 3.

(detail)
(1) DC Duct System First, the DC duct system 100 to which the regulating member K1 is applied and the configuration used together with the DC duct system 100 will be described in more detail.

As shown in FIG. 6, the DC duct system 100 includes a duct fixture F1, two (only one shown in FIG. 6) DC ducts 3, and two (only one shown in FIG. 6) feed-in 4 (feed-in cap) (see FIG. 10), and two (only one is shown in FIG. 10) end caps E1. The duct fixture F1 has two first fixing parts 1 and two second fixing parts 2. The two first fixing parts 1 correspond to the two DC ducts 3 on a one-to-one basis. Each first fixing part 1 holds a corresponding DC duct 3. That is, each DC duct 3 is fixed to the corresponding first fixing part 1. The two second fixing parts 2 are fixed to the fixture (desk 7).

Additionally, configurations used with the DC duct system 100 include one or more adapters 5 (see FIGS. 1 and 2), three partitions 6, and a desk 7.

(2) Desk As shown in FIG. 6, the desk 7 includes a top plate 71 that is rectangular in plan view, two legs 72, and two support stands 73. One of the two legs 72 protrudes downward from near the right end of the top plate 71, and the other projects downward from near the left end of the top plate 71. The two support stands 73 correspond to the two leg parts 72 on a one-to-one basis. Each support stand 73 is connected to the lower end of the corresponding leg part 72 and supports the leg part 72.

(3) First Fixing Part As shown in FIG. 9, the two first fixing parts 1 are lined up one after the other and are fitted together. As shown in FIG. 10, each of the two first fixing parts 1 includes a duct storage part 11 and two connecting protrusions 12. The duct storage portion 11 and the two connecting protrusions 12 are integrally formed.

The shape of the duct storage portion 11 is a rectangular parallelepiped. The duct storage section 11 has a length in the left-right direction. One of the two connecting protrusions 12 protrudes from the right end of the duct storage part 11, and the other protrudes from the left end of the duct storage part 11. The duct storage section 11 stores the DC duct 3 (and the duct rail 31 of the DC duct 3). Further, the duct storage section 11 also stores the feed-in 4. Each of the two connecting protrusions 12 is configured to connect the first fixing part 1 to the second fixing part 2.

Each first fixing part 1 has a storage groove 130 and two wire grooves 140. The storage groove 130 stores the DC duct 3 and the feed-in 4. A wiring W1 (see FIGS. 12A and 12B) electrically connected to the DC duct 3 is passed through the wiring groove 140.

The storage groove 130 is provided in the duct storage section 11. The storage groove 130 is formed along the length direction (left-right direction) of the duct storage portion 11. In the first fixing part 1 on the front side of the two first fixing parts 1, the storage groove 130 is open at the front surface of the duct storage part 11, and in the first fixing part 1 on the rear side, the storage groove 130 is It opens at the rear surface of the duct storage section 11.

The two wire grooves 140 correspond to the two connecting protrusions 12 on a one-to-one basis. Each wire passage groove 140 is provided across the corresponding connection protrusion 12 and duct storage portion 11 . That is, the wire passage grooves 140 are provided at the right end and the left end of the first fixing portion 1, respectively. Each wire passage groove 140 is formed along the length direction (left-right direction) of the duct storage part 11. In the first fixing part 1 on the front side of the two first fixing parts 1, each wire passage groove 140 is open at the rear surface of the duct storage part 11, and in the first fixing part 1 on the rear side, each wire passage groove 140 is opened at the rear surface of the duct storage part 11. The groove 140 is open at the front surface of the duct storage section 11.

By combining the two first fixing parts 1, the wire passage grooves 140 at the right ends of each of the two first fixing parts 1 come together to form one space (see FIG. 12A), and the two first fixing parts 1 The wire passage grooves 140 at the left end of each fixed part 1 are combined to form another space. Each wire passage groove 140 is connected to the storage groove 130. The wiring W1 passed through the wiring groove 140 is electrically connected to the terminal part 432 (see FIGS. 12A and 12B) of the feed-in 4 housed in the housing groove 130, and is connected to the DC duct via the terminal part 432. 3 (see FIGS. 11 and 12A).

Each of the two first fixing parts 1 has four (only two shown in FIG. 10) depressions 150 as part of the partition fixing structure S1. Four depressions 150 are provided in the duct storage section 11. By combining the two first fixing parts 1, the four depressions 150 of each of the two first fixing parts 1 come together, forming four gaps between the two first fixing parts 1. These four gaps each correspond to the partition fixing structure S1. More specifically, each partition fixing structure S1 is a through hole that vertically penetrates the structure in which the two first fixing parts 1 are combined. The four partition fixing structures S1 are lined up in the left-right direction. Each partition 6 is fixed to the two first fixing parts 1 by inserting a fitting protrusion protruding from the lower part of the partition into the corresponding partition fixing structure S1.

(4) Second Fixing Part As shown in FIG. 10, each of the two second fixing parts 2 includes a horizontal frame part 21, a support part 22, and a clamp mechanism 23. The horizontal frame portion 21 and the support portion 22 are integrally formed. The two second fixing parts 2 are fixing members for fixing the duct rail 31 to a fixture (here, the desk 7). More specifically, the two second fixing parts 2 are used together with the two first fixing parts 1 to fix the duct rail 31 to the desk 7.

The shape of the horizontal frame portion 21 is a rectangular tube shape. The axial direction of the horizontal frame portion 21 is along the left-right direction.

The two second fixing parts 2 correspond to the two connecting protrusions 12 of each of the two first fixing parts 1 on a one-to-one basis. The corresponding connecting protrusions 12 of each of the two first fixing parts 1 are inserted into the horizontal frame part 21 of each second fixing part 2 . Further, the two first fixing parts 1 are screwed to the two second fixing parts 2, respectively. Thereby, the two first fixing parts 1 are connected to the two second fixing parts 2. That is, the two first fixing parts 1 are connected to the two second fixing parts 2 so as to bridge between the two second fixing parts 2. Moreover, each of the two first fixing parts 1 is separable from the two second fixing parts 2. That is, by removing the screws connecting the two first fixing parts 1 and the two second fixing parts 2 and pulling out each connecting protrusion 12 from the horizontal frame part 21, each of the two first fixing parts 1 can be connected to the second fixing part 1. It can be separated from the two second fixing parts 2.

The shape of the support column 22 is cylindrical. The axial direction of the support column 22 is along the up-down direction. The horizontal frame portion 21 projects from the upper end of the column portion 22 in the left-right direction. The internal space of the horizontal frame part 21 is connected to the internal space of the column part 22 to form one internal space SP1. A wiring W1 (see FIG. 12A) is passed through the internal space SP1. That is, the second fixing part 2 has an internal space SP1 through which the wiring W1 electrically connected to the conductive bar 32 (see FIG. 11) is passed.

The support column 22 has a wire hole 220. The wire hole 220 is provided on the side surface of the support column 22. The wiring W1 is drawn out from the internal space SP1 through the wire passage hole 220.

The clamp mechanism 23 is fixed to the desk 7 by sandwiching the desk 7 therebetween. More specifically, one of the two second fixing parts 2 holds the left end of the top plate 71 of the desk 7, and the other holds the right end of the top plate 71. Thereby, the DC duct system 100 is fixed to the desk 7.

The clamp mechanism 23 includes a movable part 231 (see FIGS. 8 and 10), a base 232, and an operating part 233.

The base 232 is formed integrally with the support column 22. The base 232 protrudes from the lower end of the support column 22 in the left-right direction.

The movable part 231 is arranged on the base 232. A part of the movable part 231 is arranged inside the wire passage hole 220 of the support column 22.

The operation section 233 receives an operation for moving the movable section 231 up and down. The operating section 233 is a lever, and when the operator turns the operating section 233, the movable section 231 moves up and down.

Hereinafter, a procedure for fixing the DC duct system 100 to the desk 7 using the clamp mechanism 23 will be described. As shown in FIG. 7, the left end (or right end) of the top plate 71 of the desk 7 is inserted into the wire hole 220. Thereby, the left end (or right end) of the top plate 71 is disposed between the support portion 22 and the movable portion 231. The operator turns the operating section 233 and moves the movable section 231 upward. Thereby, the left end (or right end) of the top plate 71 is sandwiched between the support section 22 and the movable section 231. The DC duct system 100 is fixed to the desk 7 by sandwiching the left and right ends of the top plate 71 using the clamp mechanisms 23 of each of the two second fixing parts 2 .

Further, due to the presence of the support portions 22, a gap G1 (see FIG. 7) is secured between the two first fixing portions 1 of the DC duct system 100 and the top plate 71 of the desk 7. That is, a gap G1 is secured between the two duct rails 31 fixed to the two first fixing parts 1 and the top plate 71. In other words, the second fixing section 2 includes the support section 22 that supports the two duct rails 31 with a gap G1 between the two duct rails 31 and the desk 7 . By passing through the gap G1, documents and other items can be passed between the front and back of the desk 7. Further, an opening may be provided in a portion of the top plate 71 of the desk 7 below the first fixing part 1. The opening is configured to draw out wiring for supplying AC power from under the top plate 71. The user can put his/her hand into the gap G1 and pull out the wiring through the opening.

(5) DC Duct The DC duct 3 includes a conductive bar 32 and a duct rail 31 including a recess 3110 in which the conductive bar 32 is accommodated. In this embodiment, the DC duct system 100 includes two DC ducts 3 as described above, and as shown in FIGS. 10 and 11, each DC duct 3 includes a duct rail 31 and two conductive bars. 32. As shown in FIG. 4, the duct rail 31 has electrical insulation properties. The duct rail 31 is made of, for example, a synthetic resin material such as PVC (polyvinylchloride). The duct rail 31 holds a conductive bar 32 inside thereof.

The DC duct 3 shown in FIGS. 1 and 2 may correspond to either one of the two DC ducts 3 shown in FIG. 10. Note that in FIGS. 1 and 2, illustration of the first fixing part 1 is omitted.

The two DC ducts 3 correspond to the two first fixing parts 1 on a one-to-one basis. Each DC duct 3 is housed in a corresponding housing groove 130 of the first fixing part 1. Therefore, one of the two DC ducts 3 is arranged on the front side with respect to the partition 6, and the other one is arranged on the rear side with respect to the partition 6.

Further, the two DC ducts 3 are connected in a predetermined direction along a horizontal plane (back and forth) with the plurality of DC ducts 3 fixed to the first fixing part 1 and the second fixing part 2 fixed to the desk 7. located on opposite sides of each other in the direction).

The shape of the duct rail 31 is a rectangular tube. The duct rail 31 is made of metal, for example. The axial direction (length direction) of the duct rail 31 is along the left-right direction. Duct rail 31 includes a recess 3110. The recess 3110 is formed along the length direction (left-right direction) of the duct rail 31. More specifically, the recess 3110 is formed across both ends of the duct rail 31 in the length direction. Two conductive bars 32 are housed in the recess 3110.

The recess 3110 is open along a direction perpendicular to the surface of the partition 6. In other words, the recess 3110 is open in a plane along the surface of the partition 6.

As shown in FIG. 4, the duct rail 31 further includes two fitting portions 3111 and two attachment grooves 3112.

Each of the two fitting parts 3111 is a groove. The two fitting parts 3111 are provided on the inner surface of the recess 3110. The two fitting parts 3111 are located at the ends of the inner surface of the recess 3110 in a direction (vertical direction) orthogonal to the length direction (left-right direction) of the duct rail 31. The two fitting parts 3111 are formed along the length direction (left-right direction) of the duct rail 31. More specifically, the two fitting portions 3111 are formed across both ends of the duct rail 31 in the length direction. The two fitting parts 3111 fit into the adapter 5. Thereby, the adapter 5 is attached to the DC duct 3. That is, the duct rail 31 includes an adapter attachment part (two fitting parts 3111) for attaching the adapter 5. The procedure for attaching the adapter 5 to the DC duct 3 will be described later.

Two mounting grooves 3112 are provided on the inner surface of the recess 3110. The two attachment grooves 3112 are located at the ends of the inner surface of the recess 3110 in a direction (vertical direction) orthogonal to the length direction (left-right direction) of the duct rail 31. Of the two fitting portions 3111 and the two attachment grooves 3112, the two attachment grooves 3112 are provided closer to the opening of the recess 3110. The two mounting grooves 3112 are formed along the length direction (left-right direction) of the duct rail 31. More specifically, the two mounting grooves 3112 are formed across both ends of the duct rail 31 in the length direction. The two mounting grooves 3112 fit into the regulating member K1. Thereby, the regulating member K1 is attached to the DC duct 3. That is, the duct rail 31 includes an adapter attachment portion (two attachment grooves 3112) for attaching the regulating member K1. The procedure for attaching the regulating member K1 to the DC duct 3 will be described later.

Further, the duct rail 31 further includes a regulating protrusion 3114. The regulating protrusion 3114 is a protrusion. The regulating protrusion 3114 is provided at the lower part of the duct rail 31.

Each of the two conductive bars 32 has a length in the left-right direction. Each of the two conductive bars 32 is provided from the right end to the left end of the duct rail 31. The two conductive bars 32 are electrically connected to the corresponding wiring W1 (see FIG. 12A) via the feed-in 4. One of the two conductive bars 32 of each DC duct 3 is electrically connected to the positive electrode side wiring W1, and the other is electrically connected to the negative electrode side wiring W1. Thereby, DC power is supplied to the two conductive bars 32.

(6) Feed-in and end cap As shown in FIG. 10, the two feed-ins 4 correspond one-to-one with the two DC ducts 3. The two end caps E1 correspond one-to-one with the two DC ducts 3. A corresponding feed-in 4 is attached to one of the first and second ends in the length direction of each DC duct 3, and a corresponding end cap E1 is attached to the other end.

The feed-in 4 is configured to electrically connect the two conductive bars 32 of the DC duct 3 to the respective corresponding wirings W1 (see FIG. 11). That is, the two conductive bars 32 are electrically connected to the corresponding wiring W1 via the feed-in 4. The configuration of the feed-in 4 will be described below with reference to FIG.

The feed-in 4 includes an outer box 41, a terminal box 42, and two terminal units 43.

The outer box 41 has a rectangular parallelepiped shape. The outer box 41 houses a terminal box 42.

The terminal box 42 includes a first block 421 and a second block 422. The terminal box 42 is configured by combining the first block 421 and the second block 422. The terminal box 42 houses two terminal units 43. Further, the terminal box 42 has two wire entry holes 423 into which two wires W1 are inserted. Two wire entry holes 423 are provided in the first block 421.

Each of the two terminal units 43 includes a spring 431 and a terminal portion 432. The combination of spring 431 and terminal portion 432 constitutes a quick connection terminal. That is, the terminal unit 43 has quick connection terminals.

The spring 431 is formed by bending a metal plate. The terminal portion 432 is made of a metal plate and is formed into a plate shape. The terminal portion 432 faces the spring 431. The two terminal units 43 correspond to the two conductive bars 32 on a one-to-one basis. The terminal portion 432 of each terminal unit 43 is electrically connected to the corresponding conductive bar 32.

As shown in FIGS. 12A and 12B, the wiring W1 inserted into the terminal box 42 through the wire entry hole 423 is sandwiched between the spring 431 and the terminal portion 432. Thereby, the wiring W1 is electrically connected to the terminal portion 432 and held between the spring 431 and the terminal portion 432.

(7) Partition In this embodiment, the DC duct system 100 includes the partition fixing structure S1 that can fix the partition 6, as described above. A "partition" is also called a partition or a screen. The partitioned duct system 200 (see FIGS. 6 to 9) includes the DC duct system 100 and a plurality of (here, three) partitions 6 (6A, 6B, 6C).

Each partition 6 is fixed above the top plate 71. Thereby, the space above the top plate 71 is partitioned into a front space and a rear space. Some people (hereinafter referred to as "first people") are seated in front of desk 7, and some other people (hereinafter referred to as "second people") are seated behind desk 7. be seated. Since the space between the first person and the second person is partitioned by the partition 6, the possibility of droplet infection occurring between the first person and the second person can be reduced.

Each partition 6 has translucency. The material of each partition 6 is, for example, acrylic resin. Each partition 6 has a plate-like shape. The thickness direction of the partition 6 is along the front-back direction. The shape of each partition 6 in plan view is rectangular. The fitting protrusion of each partition 6 projects downward from its main body and is inserted into the corresponding partition fixing structure S1 (through hole). This fixes each partition 6 to the DC duct system 100. That is, the partition fixing structure S1 is a structure that fits into the partition 6 due to its own weight. Furthermore, each partition 6 can be removed from the DC duct system 100 by removing the fitting protrusion from the partition fixing structure S1. That is, the partition fixing structure S1 detachably fixes the partition 6.

(8) Adapter As shown in FIG. 13, first fixing parts 1 are arranged before and after the partition 6, and each first fixing part 1 accommodates a DC duct 3 (see FIG. 6). Adapters 5 can be attached to and detached from these two DC ducts 3, respectively. DC duct system 100 supplies DC power to connector 95 via adapter 5.

As shown in FIGS. 1, 2, 4, 5A, and 5B, the adapter 5 includes a housing 51, a (release) operating body 52, a mounting protrusion 53, two power receiving terminals 54, and a housing. 51 and a lid portion 56 (see FIG. 5). Further, the adapter 5 further includes a pair of connection connectors (USB socket), a circuit board, etc., which are housed in the housing 51. Here, a housing 51, a mounting protrusion 53, two power receiving terminals 54, a pair of connection connectors, a circuit board, a lid part 56, and the like of the adapter 5 constitute an adapter main body part 50.

The housing 51 is made of resin, for example. The housing 51 has a hollow box shape with one side (the rear side in FIG. 5A etc.) open. The lid 56 is assembled to the casing 51 by screws or the like so that one open surface of the casing 51 is covered by the lid 56. The outer shape of the housing 51 is a rectangular parallelepiped. The housing 51 has a first insertion port 511 and a second insertion port 512. The first insertion port 511 is an insertion port for a USB Type-A plug as a connector 95 (see FIG. 13). The second insertion port 512 is an insertion port for a USB Type-C plug as the connector 95. That is, the first insertion port 511 has a different standard from the second insertion port 512. The first insertion port 511 is different in size from the second insertion port 512. Inside the housing 51, the pair of connectors are mounted on the circuit board so as to face the first insertion port 511 and the second insertion port 512 one-on-one, respectively. The connector 95 inserted into the first insertion port 511 or the second insertion port 512 is connected to a corresponding one of the pair of connectors, and is electrically connected to the power receiving terminal 54 via the circuit board.

When the adapter 5 is attached to the DC duct 3, the first insertion port 511 and the second insertion port 512 are provided on a surface facing away from the DC duct 3 (connector mounting surface 501: the front surface in FIG. 5A etc.). It is provided. When the adapter 5 is attached to the DC duct 3, the first insertion port 511 and the second insertion port 512 are arranged vertically, as shown in FIGS. 1 and 2.

The operating body 52 is configured to be insertable into and removed from the recess 3110 of the DC duct 3, and configured to restrict rotation of the adapter 5 by being inserted into the recess 3110. The operating body 52 is provided on the side surface of the housing 51. The operating body 52 is made of resin, for example. The operating body 52 has a plate shape. The operating body 52 has an operating section 521 on its surface, and is held by the casing 51 in such a manner that the surface of the operating section 521 is exposed from one side of the casing 51. The operating body 52 can be slid in a predetermined direction (back and forth in FIG. 5A) by applying force to the operating unit 521 with a human fingertip or the like. The operating body 52 is held in the housing 51 with the return force of a spring housed in the housing 51 acting in a direction away from the connector mounting surface 501 (backward). Therefore, when no force is applied to the operating body 52, the tip portion (claw portion 520) of the operating body 52 protrudes from the housing 51 to the side opposite to the connector mounting surface 501 side. The operating body 52 slides forward by applying force to the operating portion 521 forwardly with a fingertip or the like of a person against the force of a spring.

The lid portion 56 is made of resin, for example. The lid portion 56 has a rectangular plate shape. A mounting protrusion 53 is provided on the rear surface of the lid portion 56. As shown in FIG. 5B, the lid portion 56 and the attachment protrusion 53 are continuously formed as one body. The attachment protrusion 53 includes a shaft portion 531 and two fixing ribs 532. The shaft portion 531 protrudes from the housing 51 on the side opposite to the connector mounting surface 501 side. The two fixing ribs 532 protrude from the side surface of the shaft portion 531. The two fixing ribs 532 protrude in opposite directions.

The two power receiving terminals 54 protrude from the housing 51 on the side opposite to the connector mounting surface 501 side. The tip of each of the two power receiving terminals 54 is bent. The two power receiving terminals 54 are held by the attachment protrusion 53 such that their bent ends are exposed from the end of the shaft portion 531.

Adapter 5 further includes a power converter. A plurality of electronic components constituting the power converter are mounted on a circuit board within the housing 51. The power converter converts the power received by the two power receiving terminals 54 into power of a desired voltage. Power converted by the power converter is output from a pair of connectors (USB sockets). The electrical device 94 (see FIG. 13) receives power via a cable including a connector 95 (see FIG. 13) that is inserted into the first outlet 511 or the second outlet 512 and connected to the connection connector. be able to.

The procedure for attaching the adapter 5 to the DC duct 3 will be described below.

In FIGS. 1 and 2, the two fixing ribs 532 are arranged in the vertical direction.

First, the worker holds the adapter 5 so that the direction in which the two fixing ribs 532 are lined up is along the length direction (left-right direction) of the duct rail 31, as shown in FIG. 5B. In this state, as shown in FIG. 5A, the surface of the operating unit 521 of the operating body 52 faces upward. In this state, the attachment protrusion 53 can be inserted into the recess 3110 of the duct rail 31 along the insertion direction A1 (backward) without the two fixing ribs 532 interfering with the duct rail 31. At this time, the claw portion 520 at the tip of the operating body 52 comes into contact with the first fixing portion 1, and the operating body 52 moves toward the connector mounting surface 501 side (forward) due to the contact pressure of the first fixing portion 1. The operating body 52 is configured to allow the fixing rib to be inserted into and removed from the recess.

After inserting the attachment protrusion 53 into the recess 3110, the operator rotates the adapter 5 90 degrees clockwise around the rotation axis B1. The rotation axis B1 shown is a virtual axis, and approximately coincides with the central axis of the shaft portion 531. Then, the two fixing ribs 532 are inserted into the two fitting parts 3112. This restricts the movement of the adapter 5 in the front-rear direction. Further, the rotation of the housing 51 is restricted by inserting the claw portion 520 of the operating body 52 into the recess 3110 of the duct rail 31. Further, the two power receiving terminals 54 each contact the corresponding conductive bar 32, and are thereby electrically connected to the corresponding conductive bar 32. In short, the adapter 5 can be electrically connected to the conductive bar 32 by inserting its fixing rib 532 into the recess 3110 and rotating it by a predetermined angle (for example, 90 degrees) about the rotation axis B1 along the insertion direction A1. A perfect connection is achieved, and pulling out from the recess 3110 is suppressed.

Through the above procedure, the adapter 5 is attached to the DC duct 3. The adapter 5 can be attached to the DC duct 3 at any position in the area where the recess 3110 is provided (the attachment area continuous in the length direction of the DC duct 3). Further, the adapter 5 can be electrically connected to the conductive bar 32.

In this embodiment, no configuration is provided to restrict the movement of the adapter 5 attached to the DC duct 3 in the left-right direction. Therefore, the adapter 5 can be slid in the left-right direction while being attached to the DC duct 3. In other words, the adapter 5 can be slid along the length of the DC duct 3 after being attached. However, in order to suppress wear on the two power receiving terminals 54 due to the adapter 5 moving in the left-right direction, the DC duct system 100 has a configuration that restricts the left-right movement of the adapter 5 attached to the DC duct 3. You may be prepared.

Next, a procedure for removing the adapter 5 from the DC duct 3 will be explained. When the operator applies a force toward the connector attachment surface 501 to the operating portion 521 of the operating body 52, the operating body 52 moves and the claw portion 520 comes out of the recess 3110. This releases the restriction on the rotation of the housing 51. When the operator rotates the housing 51 90 degrees counterclockwise, the two fixing ribs 532 come out from the two fitting parts 3112. Then, by pulling the adapter 5 toward you, it is removed from the DC duct 3.

(9) Power Supply System Next, an example of the configuration of a system (including the DC duct system 100) that supplies power to the electrical equipment 94 will be described with reference to FIG. 13.

A switching hub 92 and a splitter 93 are provided in a facility where the electrical equipment 94 is used. Switching hub 92 is electrically connected to power supply 91 . Power supply 91 supplies alternating current power to switching hub 92 . The power source 91 is, for example, a commercial power source or a distributed power source.

The switching hub 92 is a PoE switching hub that supports PoE (Power over Ethernet). The switching hub 92 is electrically connected to a splitter 93 via a LAN (Local Area Network) cable. Furthermore, the switching hub 92 can be electrically connected to devices compatible with PoE. Devices compatible with PoE include, for example, computer terminals, network cameras, IP (Internet Protocol) telephones, wireless access points, and the like. The switching hub 92 can exchange PoE signals including data and power (DC power) with devices electrically connected to the switching hub 92 .

The splitter 93 is a PoE splitter that supports PoE. The splitter 93 separates the PoE signal received from the switching hub 92 into data and power (DC power). The splitter 93 supplies power separated from the PoE signal to devices that are not compatible with PoE. As an example, the splitter 93 supplies power separated from the PoE signal to one or more electrical devices 94 that are not compatible with PoE via the DC duct system 100.

Furthermore, the splitter 93 transmits a data signal containing data separated from the PoE signal to a device that is not compatible with PoE.

A DC power output terminal of the splitter 93 is electrically connected to the first end of each of the four wirings W1. One of the two DC ducts 3 corresponds to two of the four wirings W1, and the other DC duct 3 corresponds to the remaining two wirings W1. The following description will focus on one DC duct 3, two wiring lines W1 and one feed-in 4 corresponding to this DC duct 3.

The two wirings W1 are a positive electrode side wiring and a negative electrode side wiring. The two wires W1 correspond one-to-one with the two wire entry holes 423 (see FIG. 11) provided in the feed-in 4. Moreover, the two wirings W1 correspond to the two conductive bars 32 of the DC duct 3 on a one-to-one basis. The second ends of each of the two wires W1 are inserted into the corresponding wire entry holes 423 and electrically connected to the corresponding conductive bars 32. One or more adapters 5 can be connected to the DC duct 3 , and one or more electrical devices 94 can be electrically connected to each conductive bar 32 via the adapters 5 .

As described above, each electrical device 94 can receive power supplied from the wiring W1 via the conductive bar 32 and the adapter 5. The user can use the electrical equipment 94 on or around the desk 7 (see FIG. 6).

The DC voltage that the adapter 5 receives from the two conductive bars 32 (the voltage between the two conductive bars 32) is preferably 60V or less. In this case, there is an advantage that a qualification such as an electrician is not required when installing the adapter 5. Therefore, compared to the case where an AC 100V outlet is relocated or newly installed, power supply can be easily secured.

It is more preferable that the DC voltage that the adapter 5 receives from the two conductive bars 32 is 24V or less. Further, it is also preferable that the DC voltage that the adapter 5 receives from the two conductive bars 32 is 48V or less.

As an example, the DC voltage of the PoE signal output from the switching hub 92 is 48V. The splitter 93 has a function of stepping down the DC voltage of the PoE signal received from the switching hub 92, and the DC voltage output from the splitter 93 is, for example, 24V. The adapter 5 receives the DC voltage output from the splitter 93 and outputs the DC voltage of 24 V or less to the electric device 94 .

By setting the voltage between the two conductive bars 32 of the DC duct 3 to 60 V or less (for example, 24 V), it is possible to reduce the possibility that a user will receive an electric shock when touching the conductive bars 32. Therefore, there is no need to provide a cover on the DC duct 3, and there is an advantage that the work of attaching and detaching the cover during the work of attaching the adapter 5 to the DC duct 3 is unnecessary.

The configuration example of the system that supplies power to the electrical equipment 94 has been described above, but instead of this system, it is possible to simplify the system by, for example, connecting each wiring W1 to a commercial power outlet via an AC adapter. It's okay.

(10) Lock System Hereinafter, the lock system C1 according to the present embodiment will be explained in detail with reference to FIGS. 1 to 5.

As shown in FIG. 1, the lock system C1 includes a regulating member K1 and a specific key K4.

The regulating member K1 is a member that regulates removal of the adapter 5 from the DC duct system 100. The regulating member K1 includes a wall portion K2, a lock portion K3, and an insertion portion K5. Here, as an example, the wall portion K2 and the lock portion K3 are integrally formed.

Below, as shown in FIG. 1, the state in which the restriction member K1 is attached to the DC duct system 100 and restricts removal of the adapter 5 may be simply referred to as "when the restriction member K1 is used."

As shown in FIG. 1, the specific key K4 is, for example, a round key (so-called ace key). By inserting a specific key K4 into the keyhole K32 of the lock part K3 and turning it, the state of the lock part K3 is switched from an unlocked state to a locked state or from a locked state to an unlocked state. The type of the specific key K4 is not particularly limited, and may be a disk cylinder or the like. Further, a spare key may exist for the specific key K4.

The wall portion K2 is formed in an annular shape surrounding the side surface adjacent to the end surface of the adapter 5 facing the DC duct 3. In the present embodiment, the end surface of the adapter 5 facing the DC duct 3 is the rear surface, and the side surface of the adapter 5 surrounded by the wall portion K2 is a surface adjacent to the rear surface and facing vertically and horizontally.

Specifically, as shown in FIGS. 2 and 3, the wall K2 has a first piece K21, a second piece K22, a third piece K23, and a fourth piece K24. have

The first piece K21 faces the upwardly facing side surface of the adapter 5 and extends in the longitudinal direction (horizontal direction) of the DC duct 3. The first piece K21 has a plate shape and has a plate surface that faces the side surface facing upward of the adapter 5. When the regulating member K1 is attached to the adapter 5, the first piece K21 is either along the upwardly facing side surface of the adapter 5, that is, in contact with the side surface, or close to the side surface with a slight distance. It becomes a state where

The second piece K22 faces the left-facing side surface of the adapter 5 and extends in the lateral direction (vertical direction) of the DC duct 3. The second piece K22 includes a plate part K220, a plate part K221, and a plate part K222. The plate portion K220 is a plate-shaped portion facing in the front-rear direction. The plate portion K221 is a plate-shaped portion that extends rearward from the plate portion K220 and faces the left-facing side surface of the adapter 5. The plate portion K222 is a plate-shaped portion that extends forward from the plate portion K220 and faces the left-facing side surface of the adapter 5. When the regulating member K1 is attached to the adapter 5, the plate part K222 is either aligned with the left-facing side surface of the adapter 5, that is, in contact with the side surface, or close to the side surface with a slight gap. It becomes a state where

The third piece K23 faces the downwardly facing side surface of the adapter 5 and extends in the longitudinal direction (horizontal direction) of the DC duct 3. The third piece K23 has a plate shape with a plate surface facing the downwardly facing side surface of the adapter 5. When the regulating member K1 is attached to the adapter 5, the third piece K23 is in a state along with the downwardly facing side surface of the adapter 5, that is, in a state in which it is in contact with the side surface, or in a state in which it is close to the side surface with a slight gap. It becomes a state where

The fourth piece K24 faces the right-facing side surface of the adapter 5 and extends in the lateral direction (vertical direction) of the DC duct 3. The fourth piece K24 includes a plate part K240, a plate part K241, a plate part K242, a plate part K243, and a plate part K244. The plate portion K240 is a plate-shaped portion facing in the front-rear direction. The plate portion K241 is a plate-shaped portion that extends rearward from the plate portion K240 and faces between the right side and the lower side. The plate portion K242 is a plate-shaped portion that extends rearward from the plate portion K240 and faces in the left-right direction. The plate portion K243 is a plate-shaped portion that extends rearward from the plate portion K240 and faces between the right side and the upper side. The plate portion K244 is a plate-shaped portion that extends forward from the plate portion K240 and faces the right-facing side surface of the adapter 5. When the regulating member K1 is attached to the adapter 5, the plate part K244 is either along the right-facing side surface of the adapter 5, that is, in contact with the side surface, or close to the side surface with a slight gap. It becomes a state where

The wall portion K2 is formed, for example, by performing punching, bending, etc. on a single metal plate. The wall part K2 has a cylindrical plate part and a brim-shaped plate part. The cylindrical plate part is composed of a first piece K21, a plate part K221, a third piece K23, a plate part K241, a plate part K242, and a plate part K243. The cylindrical plate portion has a plate surface facing the side surface of the adapter 5.

The brim-shaped plate portion is composed of a plate portion K220 and a plate portion K240. The brim-shaped plate portion extends from the cylindrical plate portion in a direction intersecting the in-plane direction of the plate surface. That is, the normal direction of the surface of the cylindrical plate part and the normal direction of the surface of the brim plate part intersect (orthogonal in this embodiment).

In this embodiment, the plate surfaces of the plate part K221, plate part K241, plate part K242, and plate part K243 that constitute the cylindrical plate part face the side surface of the adapter 5 with a space therebetween. The plate part K220 forming the flange-like plate part extends toward the side surface of the adapter 5 from the plate part K221 forming the cylindrical plate part, and the plate part K240 forming the flange-like plate part forms the cylindrical plate part. The plate portion K241, K242, and K243 extend toward the side surface of the adapter 5, and are formed in an annular shape surrounding the side surface of the adapter 5.

The brim-like plate portion extends from the cylindrical plate portion in a direction intersecting the in-plane direction of the plate surface, thereby improving the rigidity and strength of the regulating member K1. That is, when the flange-like plate part does not extend from the cylindrical plate part, and the cylindrical plate part extends in a plane, the cylindrical plate part tends to bend along the bending line in this plane. On the other hand, if the brim-like plate part extends in the direction of bending, the bending rigidity and bending strength of the cylindrical plate part will be improved, and the rigidity and strength of the regulating member K1 will be improved.

The insertion portion K5 is inserted into the inside of the DC duct 3 (the recess 3110) and prevents the DC duct 3 from rotating. As shown in FIG. 3, the insertion portion K5 extends rearward from the wall portion K2. In this embodiment, the insertion portion K5 protrudes rearward from the plate portions K221 and K242. The insertion portions K5 are located on both sides of the wall portion K2 with the adapter 5 interposed therebetween.

The plate portion K240 is configured to hold the lock portion K3.

The lock portion K3 is, for example, a so-called cylinder lock. As described above, the lock part K3 has a keyhole K32 into which a specific key K4 is inserted. The lock part K3 is held by the plate part K240 in such a manner that the keyhole K32 faces the front. Moreover, the lock part K3 has a cam lock part K31 that fits into the DC duct 3 in the locked state. The cam lock part K31 is assembled to the cylinder part of the lock part K3. The cam lock part K31 has an oval plate-shaped cam K310.

Below, the procedure for using the regulating member K1 will be explained.

First, an operator attaches the adapter 5 to the DC duct 3. Next, the operator holds the regulating member K1 and places the regulating member K1 over the adapter 5 so that the adapter 5 is housed within the wall portion K2 (see FIG. 2).

Here, when the lock part K3 is in the unlocked state, the long axis of the cam K310 is in a state along the longitudinal direction (horizontal direction) of the recessed part 3110. Therefore, in the unlocked state, the cam K310 can be inserted into the recess 3110 of the DC duct 3 along the insertion direction A1 with the adapter 5 surrounded by the wall K2.

Then, the operator inserts the specific key K4 into the keyhole K32 and turns it clockwise. Then, the cam lock part K31 rotates so that the long axis of the cam K310 is aligned in a direction (vertical direction) perpendicular to the longitudinal direction of the recess 3110, and the lock part K3 switches from the unlocked state to the locked state. As a result, the cam K310 fits into the two fitting parts 3112 of the duct rail 31 in the DC duct 3, as shown in FIG. In other words, the fitting ends (fitting portions 3112) of the two fixing ribs 532 of the adapter 5 are also used as the fitting ends of the cam K310. In the locked state, the regulating member K1 cannot be pulled out from the recess 3110 of the DC duct 3 with the adapter 5 surrounded by the wall K2. That is, attachment of the regulating member K1 to the DC duct 3 is achieved.

Furthermore, since the lock part K3 is switched to the locked state, the wall part K2 is attached to the DC duct 3 in a manner that covers a part of the adapter 5, and the removal of the adapter 5 is restricted.

When removing the regulating member K1, the operator inserts the specific key K4 into the keyhole K32 again and turns it counterclockwise, thereby switching the lock part K3 from the locked state to the unlocked state. Then, the operator grasps the regulating member K1 and moves it forward (in the direction opposite to the insertion direction A1), thereby pulling out the cam K310 from the recess 3110 of the DC duct 3. In this state, the operator can detach the regulating member K1 from the adapter 5 by pulling up the wall part K2.

Here, it can be said that the regulation member K1 of this embodiment performs two types of regulation on the removal of the adapter 5, as can be understood from the above description.

First, when the lock part K3 is in the locked state, the regulating member K1 inhibits the rotation of the adapter 5 by the wall part K2, thereby regulating the removal of the adapter 5. Specifically, when the regulating member K1 is used, the wall part K2 surrounds the adapter 5 with almost no gap. Therefore, even if an attempt is made to rotate the adapter 5 counterclockwise and pull it out, the housing 51 hits the wall portion K2 and obstructs the rotation. However, as described above, since the claw portion 520 of the operating body 52 is inserted into the recess 3110, the adapter 5 is also prevented from rotating by the operating body 52. Therefore, rotation of the adapter 5 is more strongly inhibited.

Second, when the regulating member K1 is used, the right plate part K244 of the wall part K2 covers the surface of the operating body 52 (particularly the operating part 521). Therefore, it is difficult for a person (such as a user) to operate the operating body 52 with a fingertip or the like. In other words, in the present embodiment, the wall portion K2 is configured to cover the operating body 52 so as to inhibit operation of the operating body 52 when the lock portion K3 is in the locked state.

In this embodiment, the adapter 5 is slidable along the longitudinal direction of the DC duct 3. The regulating member K1 is capable of sliding movement along the length direction integrally with the adapter 5 when the lock portion K3 is in the locked state. In other words, since the cam K310 is fitted into the two fitting parts 3112 of the duct rail 31 in the DC duct 3, it is restricted from being pulled out, but it slides in the left-right direction along the inside of the two fitting parts 3112. It is possible to move. Here, the regulating member K1 has a configuration in which the wall portion K2 surrounds the adapter 5, so that the regulating member K1 can slide in tandem with the adapter 5. Therefore, while improving the convenience of the user who uses the power supply from the DC duct system 100, it is possible to maintain restrictions on the removal of the adapter 5.

However, if the adapter 5 is immovable in the longitudinal direction of the DC duct 3, the regulating member K1 may also be immovable in the longitudinal direction of the DC duct 3. Furthermore, the structure surrounding the adapter 5 may also be omitted.

Conversely, the operating body 52 of the adapter 5 in this embodiment is not an essential component. Even if the operating body 52 is not provided on the adapter 5, the restriction member K1 has the wall portion K2 surrounding the adapter 5, so that rotation of the adapter 5 can be inhibited and removal of the adapter 5 can be restricted.

(11) Advantages In this embodiment, by connecting the connector 95 of the electrical equipment 94 (or the cable connected to the electrical equipment 94) to the adapter 5 attached to the DC duct 3, electricity is supplied from the DC duct 3. Power can be supplied to equipment 94. Therefore, compared to the case where power is supplied to the electrical equipment 94 from a power outlet or from a power tap that distributes power from a power outlet, wiring around the fixture can be improved. Furthermore, by replacing the adapter 5 with another adapter that outputs a different voltage to the connector 95, the voltage supplied to the electrical device 94 can be easily changed.

Here, as described above, the DC duct system 100 that supplies DC power may be installed in a position that is relatively easily accessible to the user, such as a fixture such as the desk 7. In that case, there is a possibility that the adapter 5 may be taken out of the DC duct 3 by a user or the like without permission. In particular, when the DC duct system 100 is applied to a public facility such as a library, a hotel, or a fixture at a private lodging facility, there is a high possibility that the user will be taken out of the house because the users will be an unspecified number of people.

On the other hand, the regulating member K1 of this embodiment includes a lock portion K3 and regulates removal of the adapter 5 from the DC duct system 100. Therefore, the restriction member K1 restricts removal of the adapter 5 unless the lock part K3 is unlocked with a specific key K4. As a result, the adapter 5 is less likely to be taken out from the DC duct 3.

Furthermore, in this embodiment, the adapter 5 is assumed to be attached and detached by rotation, and since the rotation of the adapter 5 is inhibited by the wall portion K2, it is difficult for the adapter 5 to be taken out, although the configuration is simple. Furthermore, since the wall portion K2 is formed in an annular shape surrounding the side surface of the electrical device 94, the strength of the wall portion K2 is improved compared to a case where only a part of the circumferential direction of the electrical device 94 is covered, and the regulating member K1 is The adapter 5 is less likely to be damaged and taken out from the DC duct 3.

Furthermore, since the cylindrical plate part is formed in an annular shape surrounding the side surface of the electrical device 94, the bending rigidity and bending strength of the cylindrical plate part are improved, and the rigidity and strength of the regulating member K1 are improved.

Further, since the plate surface of the cylindrical plate faces the side surface of the electrical device 94 with a space therebetween, and the brim-like plate extends from the cylindrical plate toward the side surface of the electrical device 94, it is difficult to pinch the brim-like plate. As a result, the brim-like plate portion is difficult to bend, and damage to the regulating member K1 can be suppressed.

Furthermore, in this embodiment, the operation of the operating body 52 is obstructed by the wall portion K2 on the premise that the adapter 5 is attached and detached by rotation and the rotation thereof is restricted by insertion of the operating body 52. Therefore, although the configuration is simple, it is difficult for the adapter 5 to be taken out.

In particular, in this embodiment, the wall portion K2 is configured to sandwich both ends of the adapter 5 in the longitudinal direction of the DC duct 3, so that it is possible to further suppress the adapter 5 from being taken out.

Furthermore, since the insertion portions K5 are located on both sides of the wall portion K2 with the electric device 94 interposed therebetween, the rotation prevention of the regulating member K1 relative to the DC duct 3 becomes even stronger.

Further, by setting at least the above-mentioned electrical device 94 (adapter 5) and the regulating member K1 as a set and configuring an electrical device unit including the electrical device 94 and the regulating member K1, the user can There is no need to obtain the and separately.

(12) Modification Examples Modification examples of Embodiment 1 will be listed below. The following modified examples may be realized in combination as appropriate.

Some configurations of DC duct system 100 may be provided independently of other configurations. For example, the DC duct 3, the duct fixture F1, the first fixing part 1, or the second fixing part 2 (fixing member) may be provided independently from other configurations.

The number of individual components shown in Embodiment 1 is an example, and is not limited to the number shown in Embodiment 1. For example, the DC duct system 100 is not limited to having two DC ducts 3, and may include one or more DC ducts 3. Further, the DC duct system 100 is not limited to having two first fixing parts 1, and may include one or three or more first fixing parts 1. Further, the DC duct system 100 is not limited to having two second fixing parts 2, and may include one or three or more second fixing parts 2. Furthermore, the partitioned duct system 200 is not limited to having three partitions 6, and may include one, two, or four or more partitions 6.

The plurality of DC ducts 3 may include two or more DC ducts 3 arranged in the vertical direction. Moreover, the voltage of the conductive bar 32 may be different for each of the two or more DC ducts 3. Moreover, the standard of the attachable adapter 5 may be different for each of the two or more DC ducts 3. For example, by making the two or more DC ducts 3 different in width or depth of the recess 3110, the shape of the adapter 5 that can be attached to each of the two or more DC ducts 3 is limited. good. In this case, there may be a plurality of types of regulating members K1 depending on the shape of the adapter 5.

Two or more DC ducts 3 may be fixed to one first fixing part 1. Alternatively, one DC duct 3 may be fixed to two or more first fixing parts 1.

Two or more DC ducts 3 may be connectable in each length direction (left and right direction).

As the second fixing part 2, a plurality of second fixing parts 2 having different standards for the lengths of the horizontal parts 21 may be prepared. By replacing the second fixing part 2 with another second fixing part 2 of a different standard, the two second fixing parts 2 on both sides of the first fixing part 1 can be adjusted according to the length of the fixture (desk 7). The distance between each of the support columns 22 can be adjusted.

The DC duct 3 is not limited to being fixed on the top plate 71 of the desk 7. The DC duct 3 may be fixed to the side or back surface of the top plate 71, for example.

The DC duct 3 does not have to be attached to the fixture so that the length direction of the DC duct 3 is along the horizontal plane. For example, the DC duct 3 may be attached to the fixture so that the length direction of the DC duct 3 is along the vertical direction. . Further, for example, the DC duct 3 may be incorporated into a side surface of the partition 6 along the vertical direction.

In the DC duct 3, a plurality of attachment regions (recesses 3110) may be provided and arranged in the length direction of the DC duct 3.

Further, the connector 95 is not limited to a plug, and may be a jack (insertion port). The DC duct 3 may be capable of connecting both a first adapter to which a plug as the connector 95 can be connected and a second adapter to which a jack as the connector 95 can be connected. This makes it possible to accommodate electrical equipment 94 or cables that include either a plug or a jack. The first adapter and the second adapter may have the same configuration other than the connection portion with the connector 95.

The power receiving terminal 54 and the fixed rib 532 may not be formed as separate bodies, and the power receiving terminal 54 may also serve as the fixed rib 532.

Further, the cylindrical plate portion may be formed in an annular shape surrounding the side surface of the adapter 5. In the embodiment described above, the first piece K21, the plate part K221, the third piece K23, the plate part K241, the plate part K242, and the plate part K243 that constitute the cylindrical plate part are separated from each other. On the other hand, among the first piece K21, the plate part K221, the third piece K23, the plate part K241, the plate part K242, and the plate part K243, adjacent plate parts are connected to each other, and the cylindrical plate part is shaped into an annular shape. By forming it, the strength can be further improved. If the wall part K2 is formed by punching and bending a single metal plate, for example, the first piece K21, the plate part K221, the third piece K23, the plate part K241, and the plate part K242 By welding adjacent plate portions of the plate portions K243 and K243, the cylindrical plate portion can be easily formed into an annular shape with a simple configuration.

Further, the brim-shaped plate portion may extend further away from the side surface of the adapter 5 (electrical device 94) than the cylindrical plate portion.

(13) Summary As explained above, the regulating member (K1) of the first aspect has the DC duct (3) to which the electrical equipment (94) can be attached and detached, and supplies DC power to the electrical equipment (94). The removal of electrical equipment (94) from the DC duct system (100) is restricted. The regulating member (K1) includes a wall portion (K2), a lock portion (K3), and an insertion portion (K5). The wall portion (K2) is formed in an annular shape surrounding the side surface adjacent to the end surface of the electrical device (94) facing the DC duct (3). The lock part (K3) switches between a locked state that restricts separation from the DC duct (3) and an unlocked state that allows separation from the DC duct (3) using a specific key (K4). The insertion portion (K5) is inserted into the DC duct (3) and prevents the DC duct (3) from rotating. The regulating member (K1) is attached to the DC duct (3) in such a manner that the wall part (K2) surrounds the side of the electrical equipment (94) when the lock part (K3) is in the locked state. Regulate removal.

In the first aspect, the regulating member (K1) regulates removal of the adapter (5) unless the lock (K3) is unlocked with a specific key (K4). As a result, the adapter (5) is less likely to be taken out from the DC duct (3).

Furthermore, since the wall portion (K2) is formed in an annular shape surrounding the side surface of the electrical device (94), the strength of the wall portion (K2) is reduced compared to a case where only a portion of the circumferential direction of the electrical device (94) is covered. is improved, and it becomes less likely that the regulating member (K1) will be damaged and the adapter (5) will be taken out of the DC duct (3).

The second aspect can be realized in combination with the first aspect. In a second aspect, the DC duct (3) has a conductive bar (32) and a duct rail (31) including a recess (3110) in which the conductive bar (32) is housed. The electrical device (94) is electrically connected to the conductive bar (32) by inserting its fixing rib (532) into the recess (3110) and rotating it by a predetermined angle around the rotation axis along the insertion direction. A secure connection is achieved and withdrawal from the recess (3110) is suppressed. The regulating member (K1) inhibits the rotation of the electrical device (94) by the wall portion (K2) when the lock portion (K3) is in the locked state, thereby regulating the removal of the electrical device (94).

In the second aspect, since the wall portion (K2) prevents the adapter (5) from rotating, the adapter (5) is less likely to be taken out, although the configuration is simple.

The third aspect can be realized in combination with the first or second aspect. In the third aspect, the wall portion (K2) includes a cylindrical plate portion and a brim-like plate portion. The cylindrical plate portion has a plate surface facing the side surface of the electrical device (94). The brim-shaped plate portion extends from the cylindrical plate portion in a direction intersecting the in-plane direction of the plate surface.

In the third aspect, the bending rigidity and bending strength of the cylindrical plate portion are improved, and the rigidity and strength of the regulating member (K1) are improved.

The fourth aspect can be realized in combination with the third aspect. In the fourth aspect, the plate surface faces the side surface of the electrical device (94) with a space therebetween. The brim-shaped plate portion extends from the cylindrical plate portion toward the side surface of the electrical device (94).

In the fourth aspect, it is difficult to bend the collar-shaped plate portion by pinching the collar-shaped plate portion, and damage to the regulating member (K1) is suppressed.

The fifth aspect can be realized in combination with the fourth aspect. In the fifth aspect, the cylindrical plate part is formed in an annular shape surrounding the side surface of the electrical device (94).

In the fifth aspect, the bending rigidity and bending strength of the cylindrical plate portion are improved, and the rigidity and strength of the regulating member (K1) are improved.

The sixth aspect can be realized in combination with the second to fifth aspects. In a sixth aspect, the electric device (94) has an operating body (52) on a side surface configured to allow an operation for inserting and removing the fixing rib (532) into and from the recess (3110). The wall portion (K2) covers at least a portion of the operating body (52) so as to inhibit operation of the operating body (52) when the lock portion (K3) is in the locked state.

In the sixth aspect, the wall (K2) obstructs the operation of the operating body (52), making it difficult for the adapter (5) to be taken out.

The seventh aspect can be realized by combining the first to sixth aspects. In the seventh aspect, the insertion portions (K5) are located on both sides of the wall portion (K2) with the electric device (94) interposed therebetween.

In the seventh aspect, the rotation prevention of the regulating member (K1) with respect to the DC duct (3) becomes even stronger.

The eighth aspect can be realized by combining the first to seventh aspects. In the eighth aspect, the electrical equipment unit includes the regulating member (K1) of the first to seventh embodiments and the electrical equipment (94).

In the eighth aspect, the electric device (94) and the regulating member (K1) are set as a set, eliminating the need to obtain them separately.

The ninth aspect can be realized in combination with the eighth aspect. In a ninth aspect, the electrical device (94) is an adapter to which a connector (95) is connected.

In the ninth aspect, the adapter is less likely to be taken out as an electrical device (94).

100 DC duct system 3 DC duct 31 Duct rail 3110 Recess 32 Conductive bar 52 Operating body 532 Fixed rib 94 Electrical equipment 95 Connector K1 Regulating member K2 Wall K3 Lock K4 Key K5 Insertion part

Claims (9)

A regulating member that regulates removal of the electrical equipment from a DC duct system that has a DC duct to which the electrical equipment can be attached and detached and supplies DC power to the electrical equipment,
a wall portion formed in an annular shape surrounding a side surface adjacent to an end surface facing the DC duct of the electrical device;
A lock unit that switches between a locked state that restricts withdrawal from the DC duct and an unlocked state that allows withdrawal from the DC duct using a specific key;
an insertion part that is inserted into the inside of the DC duct and prevents rotation of the DC duct,
The regulating member is attached to the DC duct in such a manner that the wall part surrounds a side surface of the electrical equipment when the lock part is in the locked state, and regulates removal of the electrical equipment.
Regulatory components. The DC duct includes a conductive bar and a duct rail including a recess in which the conductive bar is housed,
The electrical device is electrically connected to the conductive bar by inserting the fixing rib into the recess and rotating it by a predetermined angle about a rotation axis along the insertion direction, and Pulling out from the recess is suppressed,
The regulating member inhibits rotation of the electric device by the wall portion when the lock portion is in the locked state, and restricts removal of the electric device.
The regulating member according to claim 1. The wall portion is
a cylindrical plate portion having a plate surface facing the side surface of the electrical device;
a flange-like plate portion extending from the cylindrical plate portion in a direction intersecting the in-plane direction of the plate surface;
The regulating member according to claim 1 or 2. The plate surface faces a side surface of the electrical device with a space therebetween,
The brim-shaped plate portion extends from the cylindrical plate portion toward a side surface of the electrical device.
The regulating member according to claim 3. The cylindrical plate part is formed in an annular shape surrounding a side surface of the electric device.
The regulating member according to claim 4. The electric device has an operating body on the side surface configured to enable an operation for inserting and removing the fixing rib into and from the recess,
The wall portion covers at least a portion of the operating body so as to inhibit operation of the operating body when the lock portion is in the locked state.
The regulating member according to claim 2. The insertion portions are located on both sides of the wall portion with the electrical device sandwiched therebetween,
The regulating member according to claim 1 or 2. The regulating member according to claim 1 or 2,
The electrical device;
Electrical equipment unit. The electrical device is an adapter to which a connector is connected.
The electrical equipment unit according to claim 8.

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