JP3671651B2 - Power strip - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a power strip provided with a main load outlet for supplying power to a main load and a sub load outlet for supplying power to a sub load only while power is supplied to the main load.
[0002]
[Prior art]
Conventionally, a power strip provided with a main load outlet for supplying power to the main load and a sub load outlet for supplying power to the sub load only while power is supplied to the main load is provided (for example, (See JP-A-4-223078). This type of power strip is used when power is supplied to a system including a main device and peripheral devices subordinate to the main device, such as a computer, an audio system, and a video system. In other words, power is supplied to peripheral devices only when power is supplied to the main device, and the power to the entire system can be turned on / off only by operating the power on / off of the main device. .
[0003]
In order to achieve this object, the main load outlet is directly connected to the commercial power source, and the sub load outlet is connected to the commercial power source via the switching contact of the electromagnetic relay. The electromagnetic relay is driven according to the output of the current transformer that detects the current in the energization path from the commercial power supply to the main load outlet. That is, when the main load is turned on and a current of a predetermined value or more flows through the energization path, the electromagnetic relay is driven and the switching contact is turned on.
[0004]
[Problems to be solved by the invention]
By the way, as described above, a current detection circuit that includes a current transformer, an electromagnetic relay, and the like and senses a current flowing between a commercial power supply and a main load outlet, drives the electromagnetic relay to turn on and off the switching contact. A circuit component is mounted on a circuit board made of a printed circuit board and placed in the container. Since this circuit board is mounted with relatively large circuit components such as current transformers and electromagnetic relays, the body that houses the circuit board is also made wider accordingly. There is a problem that a problem is likely to occur in the storage property (first problem).
[0005]
Conventionally, the circuit board is generally fixed by screwing to the body, which is disadvantageous in terms of the number of parts and productivity (second problem).
On the other hand, in recent years, power supply adapters (so-called AC adapters) are used in various electric devices, and many power supply adapters have a blade protruding directly from a housing. When this type of power adapter is connected to a power strip provided in the past, the conventional power strip cannot take a large contact area with the power adapter housing. The blades are easy to come off and the amount of heat generated increases due to insufficient insertion of the plug blade, and there is a problem that part of the plug blade is exposed and a short circuit easily occurs due to contact with foreign matter. There is a problem in that the plug blade insertion port is blocked (third problem).
[0006]
The invention of claim 1 has been made in view of the first problem, and an object of the invention is to provide a power strip that can reduce the width dimension of the container and improve the storability. is there.
The invention of claim 2 was made in view of the second problem described above, and the object of the invention is to fix the circuit board in the body without using mounting parts such as screws. An object of the present invention is to provide a power strip capable of reducing the number of points and improving the productivity.
[0007]
Further, the invention of claim 3 has been made in view of the third problem, and an object thereof is to provide a power strip suitable for connection of a power adapter.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, a main load outlet connected to a commercial power source, one or more sub load outlets connected to the commercial power source via switching contacts, and a commercial power source are provided. When the current flowing between the main load outlet and the main load outlet is sensed, a current detection circuit that opens and closes the switching contacts to enable power supply from the commercial power source to the sub load outlet, and circuit components that constitute the current detection circuit are At least one or more mounted circuit boards are housed in the container, and a protrusion is provided on the container that protrudes to the front side of other parts. At least the circuit board is provided in the protrusion. Ri formed by housing parts, body outside at least a portion of the terminal plate is furnished terminal plate that conduct a blade receiving member and the blade receiving member for receiving the plug pins in the main body has a blade insertion slot on the front body The main negative that is exposed to The outlet for power and the outlet for secondary load are placed in a container that is composed of a body that is open on one side and a cover that is covered on the opening side of the body. An exposure window that exposes a part of the front surface including the exposure window is provided on the front surface of the cover, and the projecting portion is provided on the cover portion including the exposure window that exposes a part of the main load outlet. Compared to the example, the width of the container can be reduced, and the storage property can be improved , and since the blade receiving member and the terminal board are built in the main body of the outlet, As a result, the main load outlet and sub load outlet can be unitized and stored in a container consisting of a body and cover. Productivity becomes easy can be improved.
[0009]
The invention of claim 2 is characterized in that, in the invention of claim 1, a circuit board fixing portion for fixing the circuit board in an upright state is provided in the vicinity of both ends in the width direction of the portion where the protruding portion of the body is provided. Thus, mounting parts such as screws are not required for fixing the circuit board, and the number of parts can be reduced and the productivity can be improved.
According to a third aspect of the present invention, in the first or second aspect of the present invention, an adapter mounting table that comes into surface contact with one surface of the housing of a power adapter formed by protruding a plug blade inserted into an outlet into the housing is provided on the front surface of the body. The adapter mounting table allows a relatively large contact area with the power adapter so that the power adapter can be stably held without wobbling, and other power outlets are blocked by the power adapter housing. It is easy to use without being stripped.
[0010]
The invention of claim 4 is characterized in that, in the invention of claim 1, 2 or 3, a magnet is disposed on the back of the container body, and the magnet is attracted to a metal desk or cabinet, etc. The tap can be easily installed on the floor, and the power tap does not fall on the floor and get in the way .
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described in detail with reference to FIGS.
FIG. 8 is a circuit diagram showing the present embodiment, in which a main load outlet 20 is connected to a plug P connected to a commercial power source, and a subload is connected via a relay contact (open / close contact) r of the electromagnetic relay Ry. A power outlet 30 is connected. A current transformer CT for detecting a current to the main load outlet 20 is inserted into the energization path between the plug P and the main load outlet 20. Further, between the two supply electrodes of the plug P, the surge absorbing element ZNR, the resistor R ₁ , the capacitor C ₃ and the AC input terminal of the diode bridge DB are connected in parallel.
[0012]
The electromagnetic relay Ry is driven via the relay drive circuit DR by the output of the current transformer CT. That is, in the relay drive circuit DR, the output of the current transformer CT is amplified by the amplifier circuit AMP and then averaged through the integration circuit INT. The output of the integration circuit INT is compared with the reference voltage by the comparator CP. If the output level of the integration circuit INT is equal to or higher than the reference voltage, the thyristor SCR connected in series to the coil of the electromagnetic relay Ry is turned on, and the relay contact r Is closed (turned on). Reference voltage of the comparator CP, after the output of the diode bridge DB smoothes a capacitor C _2, obtained by stabilizing Zener diode ZD. Thus, a current sensing circuit is constituted by the current transformer CT, the relay drive circuit DR, the electromagnetic relay Ry, etc., and each circuit component constituting the current sensing circuit is composed of two circuit boards 41 as shown in FIG. ₁ and 41 ₂ are distributed.
[0013]
By the way, the magnitude of the load current (current flowing between the commercial power supply and the main load outlet 20) necessary for turning on the relay contact r of the electromagnetic relay Ry is the turn ratio of the current transformer CT, the amplification circuit. It is determined by the amplification factor of AMP, the reference voltage of the comparator CP, and the like. Thus, in this embodiment, the switch SW for switching the amplification factor of the amplifier circuit AMP is provided. If the amplification factor is lowered by this switch SW and set to low sensitivity, the switch SW is connected to the main load outlet 20. This can cope with a case where a minute load current continues to flow when the main load is turned off. Conversely, if the gain is increased and the sensitivity is set to be high, the load current can be accommodated with a minute load current. The switch SW is mounted on the circuit board 41 ₁ as will be described later, and is set by switching between low sensitivity and high sensitivity when assembling the body 1. However, it is also possible for the user to open the container 1 and switch the switch SW according to the usage situation. Moreover, it is good also as a structure which can operate the operation knob of switch SW from the outside of the container body 1. FIG.
[0014]
As shown in FIGS. 1 and 2, the power strip having the circuit configuration as described above is installed in a container (case) 1 including a body 2 and a cover 3 coupled by an assembly screw (not shown). Is done. The main load outlet 20 and the sub load outlet 30 are provided with independent cases (main bodies) 21 and 31, respectively.
As shown in FIGS. 4 and 5, the case 21 of the main load outlet 20 includes a body 21 a formed in a box shape with one surface open, and a cover 21 b covered on the opening surface side of the body 21 a. The caulking collar 24 is inserted into the through holes 21d of the boss portions 21c and 21c projecting from the side surfaces of the body 21a and the cover 21b, respectively, and coupled. In addition, since the main load outlet 20 supplies power only to the main load, only one pair of plug blade insertion ports 22 is provided on the front surface of the boss portion 21e protruding from the cover 21b. Inside the body 21a, there are provided two storage recesses 23, 23 partitioned by an insulating wall 23a. In each of the storage recesses 23, 23, blade receiving springs 25 serving as blade receiving members for receiving plug blades are provided. The caulking rod 27 is caulked and fixed to the terminal plates 26, 26. In the present embodiment, a so-called retaining type mechanism is employed in which the stopper blade is prevented from coming off using a hole generally provided in the plate-like stopper blade. For example, if the plug blade of the main load power plug is to be inserted into the plug blade insertion port 22, the plug blade is provided when the power plug is rotated along the opening surface of the plug blade insertion port 22 after the plug blade is inserted. The hole is engaged with a retaining protrusion 25a provided on the blade receiving spring 25 to prevent the stopper blade from coming off. Thus, in order to prevent the stopper blade from coming off, the stopper blade insertion port 22 is formed in an arc shape.
[0015]
Each blade receiving spring 25 has a shape in which one end portions of a pair of spring pieces 25b are continuously and integrally connected via a connecting piece 25c, and the two spring pieces 25b are close to each other to the extent that they can hold the plug blade. Placed (usually in contact with each other). Further, both the spring pieces 25b are curved in an arc shape along the opening surface of the plug blade insertion opening 22, and a retaining protrusion 25a directed toward the other spring piece 25b is projected from one spring piece 25b. Therefore, when the plug blade is inserted between the spring pieces 25b and rotated so that the hole of the plug blade is aligned with the retaining protrusion 25a, the hole of the blade is engaged with the retaining protrusion 25a and the stopper blade is prevented from coming off. Is done.
[0016]
Further, as shown in FIG. 5, a terminal portion 26a that protrudes out of the case 21 is integrally formed at one end of the terminal plate 26 that is bent in a substantially L shape, and is drilled into the terminal portion 26a. The core wire of the electric wire 42 is inserted into the hole 26b and connected by an appropriate method such as soldering. Reference numeral 26c denotes a support piece for supporting the caulking fixed blade receiving spring 25.
[0017]
On the other hand, as shown in FIG. 6, the case 31 of the subordinate outlet 30 is formed by caulking a body 31a formed in a box shape with one surface open and a cover 31b covered on the opening surface side of the body 31a. 34 is formed by bonding. The caulking rod 34 is inserted into a caulking connection hole 31f formed in the cover 31b from a through hole 31d of a boss 31c provided upright in the body 31a and caulked. On the front surface of the cover 31b, four boss portions 31e inserted into the exposure windows 4 provided on the cover 3 constituting the container 1 are arranged in a line along the longitudinal direction. A pair of plug blade insertion ports 32 are opened. The inside of the body 31a is provided with two storage recesses 33, 33 that are partitioned by an insulating wall 33a along the longitudinal direction. In each of the storage recesses 33, 33, four blade receiving springs 35 are strip-shaped. The blade receiving spring block B formed integrally with the terminal plate 36 at substantially equal intervals is housed. Each blade receiving spring 35 has a shape in which a pair of spring pieces 35b protrudes from both edges in the width direction of the terminal plate 36, and both the spring pieces 35b are arranged close to each other to the extent that they can hold the plug blade. (Usually in contact with each other). Further, both the spring pieces 35b are curved in an arc along the opening surface of the plug blade insertion port 32, and a retaining projection 35a directed toward the other spring piece 35b is projected from one spring piece 35b. Therefore, as with the main load outlet 20, when the plug blade is inserted between the spring pieces 35b and rotated so that the hole of the plug blade is aligned with the retaining protrusion 35a, the hole of the stopper blade is brought into contact with the retaining protrusion 35a. The stopper blade is prevented from coming off by engaging.
[0018]
Further, both end portions of the terminal plate 36 are bent into a substantially L shape, and one end portion of the terminal plate 36 protrudes out of the case 31 as a terminal portion 36a. The terminal portion 36a protruding out of the case 31 is provided with a hole 36b into which the core wire of the electric wire 42 is inserted, and the core wire of the electric wire 42 inserted into the hole 36b is connected to the terminal portion by an appropriate method such as soldering. 36a.
[0019]
In this way, the main load outlet 20 and the sub load outlet 30 are unitized so as to have separate cases 21 and 31 from the main body 1 of the power strip, thereby being double insulated with the main body 1. As a result, safety can be improved, and assembly in the container 1 composed of the body 2 and the cover 3 can be facilitated and productivity can be improved.
[0020]
Two circuit boards 41 ₁ and 41 ₂ on which circuit components such as the main load outlet 20, the sub load outlet 30, and the electromagnetic relay Ry and the current transformer CT configured as described above are mounted are the body 2. It is mounted in a container 1 consisting of a cover 3. In addition, a cutout 7 for introducing a power cord 6 having a plug P at the tip is provided on one end wall of the body 2 and the cover 3, and a gap between the cutout 7 and the end wall is provided. The wall portion 8 is erected from the bottom surfaces of the body 2 and the cover 3 with a gap. Thus, the flat bushing 6 a provided on the outer peripheral portion of the power cord 6 is accommodated in the gap between the end wall of the body 2 and the wall portion 8, and the end wall and the wall portion 8 of the body 2 and the cover 3 are accommodated. The power cord 6 is held (see FIG. 2).
[0021]
A rib 2a on which the main load outlet 20 is placed protrudes from the bottom of one end of the body 2. Further, a rib 2b on which the secondary load outlet 30 is placed projects from the bottom surface of the body 2 from the other end side to the center. Reference numeral 2c denotes a boss through which an assembly screw for connecting the body 2 and the cover 3 is inserted.
Here, the two circuit boards 41 ₁ and 41 ₂ are arranged between the main load outlet 20 and the sub load outlet 30 in the longitudinal direction of the body 2. That is, rib-like circuit board fixing portions 5 having grooves 5a are provided in the vicinity of both ends in the width direction of the body 2, and the circuit boards 41 ₁ , 41 ₂ in an upright state as shown in FIGS. Is inserted into the groove 5a of the circuit board fixing portion 5, so that the circuit boards 41 ₁ and 41 ₂ can be fixed to the body 2 without using a mounting member such as a screw, thereby reducing the number of components. Productivity can be improved.
[0022]
By the way, in the part of the cover 3 that opposes the main load outlet 20 and the circuit boards 41 ₁ and 41 ₂ , the protruding part 9 that protrudes to the front side from the other part (part that opposes the _secondary load outlet 30). The circuit boards 41 ₁ and 41 ₂ fixed in an upright state to the circuit board fixing part 5 of the body 2 are accommodated inside the protruding part 9. Thus, by providing the protrusion 3 on the cover 3 and securing the storage space for the circuit boards 41 ₁ and 41 ₂ , it becomes possible to reduce the width of the container 1 as compared with the conventional example. In addition, there is an advantage that the portion of the subordinate outlet 30 can be made thin and the storage property can be improved. Moreover, since the width dimension can be reduced, the entire body 1 is formed into a long rectangular shape as in the present embodiment, and the plug blade insertion ports 22 and 32 of the main load outlet 20 and the sub load outlet 30 are arranged in a line. However, a so-called line-type power strip can be realized.
[0023]
The support block 9 exposing window 4 ₁ boss portion 21e of the main load outlet 20 is inserted is provided in the front of the support block 9 including a periphery of the exposure window 4 ₁ is substantially flat form . Further, the side surface in the longitudinal direction of the container body 1 of the projecting portion 9 is a tapered surface, and the end portions of the circuit boards 41 ₁ and 41 ₂ are also cut obliquely in accordance with this. Note that the electric wire 42 connecting the main load outlet 20, the sub load outlet 30, and the circuit boards 41 ₁ and 41 ₂ is provided between the sub load outlet 30 and the side wall of the body 1 as shown in FIG. It is stored in the gap.
[0024]
On the back side of the body 2, as shown in FIG. 7, for example, magnet housing recesses 11 for housing magnets 10 that are attracted to a metal desk or cabinet are provided at both longitudinal ends. The magnet 10 is configured by fixing a permanent magnet 10a to an outer peripheral frame 10b having a substantially U-shaped cross section. Further, a locking claw 10c projects from one end side of the outer peripheral frame 10b of the magnet 10, and a hook (not shown) that can engage the locking claw 10c on one wall side in the magnet housing recess 11 is also provided. Is provided. Thus, when the magnet 10 is pushed into the magnet housing recess 11, the locking claw 10 c of the magnet 10 is hooked on the hook and is prevented from coming off, so that the magnet 10 can be locked with one touch. By adsorbing it to a metal surface such as a desk or cabinet made of metal, the power strip can be easily disposed at a place other than the floor, and the power strip can be prevented from rolling around the floor.
[0025]
Meanwhile, around the exposing window 4 ₅ support block 9 of the cover 3 and provided on the opposite side, can abut adapter mounting table on one side of the housing 51 of the power adapter 50 as shown in FIG. 9 (a) 12 projects from the front surface of the cover 3. The power adapter 50 converts alternating current supplied from a commercial power source into direct current. A pair of plug blades 52 project from one surface of the housing 51 and are connected to the commercial power source on the other surface. 53 is provided.
[0026]
Thus, the power adapter 50 is turned into a power strip by inserting the plug blade 52 into the plug blade insertion port 32 and rotating the housing 51 with the housing 51 of the power adapter 50 mounted on the adapter mounting table 12. It can be mechanically and electrically connected. Moreover, since the adapter mounting table 12 has a flat front surface, the contact area between the power adapter 50 and the body 1 connected as shown in FIG. 9B is large, and the power adapter 50 wobbles. In addition to being able to prevent, the plug blade insertion port 32 is not blocked by the housing 51 of the power adapter 50. In this embodiment, since the front surface of the projecting portion 9 is a flat surface, the power adapter 50 is placed on the front surface of the projecting portion 9 even when the power adapter 50 is connected to the main load outlet 20. As a result, the contact area between the power adapter 50 and the container 1 is increased, so that the power adapter 50 can be prevented from wobbling and the other blade insertion slot 32 is not blocked. is there.
[0027]
【The invention's effect】
According to the first aspect of the present invention, there is provided a main load outlet connected to the commercial power source, one or more sub load outlets connected to the commercial power source via switching contacts, and the commercial power source and the main load outlet. When the current flowing through the current sensing circuit is sensed, a current sensing circuit that opens and closes the switching contacts to enable power supply from the commercial power source to the sub-load outlet, and at least one or more circuit components constituting the current sensing circuit are mounted. made by OsameSo the circuit board vessels body, a support block which protrudes toward the front side than the other portions is provided on the device body, formed SQLDESC_BASE_TABLE_NAME this accommodating at least a portion of the circuit board within the support block A main load for a main load comprising a blade receiving member that receives a plug blade inside the main body and receiving a plug blade inside the main body and a terminal plate that is electrically connected to the blade receiving member, and at least a part of the terminal plate is exposed to the outside of the main body. Outlet and subordinate load Place the outlet in a container that consists of a body that opens on one side and a cover that covers the opening side of the body, and a part of the front surface including the plug blade insertion port of the main load outlet and the sub load outlet. Since the exposure window to be exposed is provided on the front surface of the cover and the projecting part is provided on the cover part including the exposure window where a part of the main load outlet is exposed , the width of the body compared to the conventional example It is possible to reduce the size and improve the storage property, and since the blade receiving member and the terminal board are built in the main body of the outlet, it is safe to double insulate with the body model improves, moreover, being able to main load outlet and slave load outlet unitized improved productivity assembling becomes easy to accommodate the composed unit body from the body and the cover There is a result.
[0028]
According to the second aspect of the present invention, since the circuit board fixing portion for fixing the circuit board in an upright state is provided in the vicinity of both ends in the width direction of the portion where the protruding portion of the body is provided, a screw is used to fix the circuit board. This eliminates the need for mounting parts such as reducing the number of parts and improving the productivity.
According to the third aspect of the present invention, the adapter mounting table is formed on the front surface of the body of the power adapter in which the plug blade inserted into the outlet protrudes from the housing. The power adapter can be stably held without wobbling by making the contact area with the adapter relatively large, and the power adapter housing can be used conveniently without blocking other outlets. .
[0029]
In the invention of claim 4, since the magnet is disposed on the back of the container, the power strip can be easily installed on a floor other than the floor by adsorbing the magnet to a metal desk or cabinet. There is an effect that it doesn't get in the way of rolling .
[Brief description of the drawings]
FIG. 1 is an exploded perspective view showing an embodiment.
FIG. 2 is a perspective view showing a state in which the cover is opened.
FIG. 3 is a perspective view of the same.
FIG. 4 is an exploded perspective view of a main load outlet.
FIG. 5 is a perspective view of a main load outlet.
FIG. 6 is an exploded perspective view of a subordinate outlet.
FIG. 7 is an exploded perspective view as seen from the back side.
FIG. 8 is a circuit configuration diagram of the above.
FIG. 9A is a perspective view of a power adapter connected to the same, and FIG. 9B is an explanatory diagram of a mounting state of the power adapter.
[Explanation of symbols]
1 instrument body 2 body 3 cover 5 circuit board fixing portion 9 support block 20 main load outlet 22 blade insertion slots 30 follow the load outlet 32 blade insertion slots 41 _1, 41 ₂ circuit board

Claims (4)

A main load outlet connected to the commercial power source, one or more sub load outlets connected to the commercial power source via switching contacts, and a current flowing between the commercial power source and the main load outlet is detected. A current sensing circuit that opens and closes contacts to enable power supply from a commercial power supply to a sub-load outlet, and one or more circuit boards on which at least circuit components constituting the current sensing circuit are mounted. made by OsameSo, it is provided on the vessel body support block which protrudes toward the front side than the other portions, Ri formed by housing at least a portion of the circuit board in the support block, blade into the front body A main load outlet and a sub load outlet comprising a blade receiving member having a mouth and receiving a plug blade inside the main body and a terminal plate electrically connected to the blade receiving member, with at least a part of the terminal plate exposed outside the main body. ,one An exposure window that is housed in a container composed of a body that opens and a cover that is covered on the opening side of the body, and exposes a part of the front surface including the plug blade insertion opening of the main load outlet and the sub load outlet Is provided on the front surface of the cover, and the projecting portion is provided on a portion of the cover including an exposed window through which a part of the main load outlet is exposed .   2. The power strip according to claim 1, further comprising a circuit board fixing portion for fixing the circuit board in an upright state in the vicinity of both ends in the width direction of the portion where the protruding portion of the body is provided.   3. The power tap according to claim 1, wherein an adapter mounting table is formed on the front surface of the body of the power adapter in which a plug blade to be inserted into an outlet projects from the housing. . 4. The power strip according to claim 1, wherein a magnet is disposed on the back surface of the container .

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