JP2007207736A - Multi-spot wall switching system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a wall switching system in which a switching on-off operation of light can be done by any of wall switches provided in many points. <P>SOLUTION: In a circuit, wall switches provide in many points are connected in parallel and connected with a commutator and a plus line from the commutator is connected with contact points A and B, a minus line is connected contact points C and D. Furthermore, contact points A and D are connected with an electromagnet A, and contact points B and C are connected with an electromagnet B to form the circuit. Also, a contact point E is connected between a light source and a bulb to form the circuit. A seesaw type electromagnetic switching unit has its parts arranged and fixed as follows; the contact point A, C, E and the electromagnet A are arranged on one side of a base and the contact points B, D, on the other side and a plate covering the above contact points is fixed with a permanent magnet and a conductive plate and fixed on the base movable in seesaw with a central fulcrum as an axis. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention uses two electromagnets with different magnetic poles to open and close the switch of the lamp by the magnetic force generated by alternately generating the anode and the cathode, and the operation of these electromagnets can be performed at multiple locations. The present invention relates to a multi-site wall switch system in which an electric lamp can be turned on and off by performing it from one appropriate place among wall switches that can be installed.

  Conventionally, in general, only a maximum of two wall lamp switches can be installed.

Therefore, there were the following problems.
If you install a wall switch for a light in a large place such as an office or factory, a room with many entrances, or a long distance in a residential corridor, you can only install up to two places. It was not possible to install it in all places.
The present invention has been made to solve these problems.

The circuit is connected to the first line of two electric cords of one circuit connected to the power supply in parallel with the instantaneous energization type wall switch installed in multiple places, and between that line and the second line. Attach a relay to prevent the energized contact from switching continuously by operating the instantaneous wall switch, connect the first line to the rectifier, and connect the second line to the electromagnet It connects to the electromagnets A and B which unified the winding method of the coil wound around the iron core. Next, the positive current line from the rectifier is connected to the contact operated by the relay, and then connected to the contacts A and B. Further, each contact A is connected to the electromagnet A, and each contact B is connected to the electromagnet B to create respective circuits. Further, after connecting the negative current line from the rectifier to the contact operated by the relay, it is connected to the contacts C and D. Further, each circuit is created by connecting the contact C to the electromagnet B and connecting the contact D to the electromagnet A.
On the other hand, the first line of the two electric cords of the other one circuit connected to the power source is connected to the contact E and then connected to the lamp, and the second line is connected to the lamp to create a circuit.
The position relation of the seesaw type electromagnet switch part of the circuit is that the contacts A, C, E and electromagnet A are attached to one side of the pedestal around the fulcrum, and the contacts B, D and electromagnet B are attached to the opposite side of the pedestal To do. A plate shaped so as to cover the attached contacts and electromagnets A and B is attached to the pedestal in a state where it can be moved in a seesaw manner around the center fulcrum. At the relative positions of the electromagnets A and B on the plate, permanent magnets having the same magnetic pole direction are attached. Furthermore, a current-carrying plate having a balance-like shape with a spring sandwiched between the plates is attached at a relative position of each contact point of the plate so that it can contact a pair of contact surfaces of each contact point. Finally, the balance between the left and right weights is adjusted around the fulcrum of the plate so that the seesaw can be moved smoothly. This is a multi-site wall switch system characterized by the above.

  Since it is possible to install wall switches for electric lights in many places, it can be installed in all the places that are considered necessary, such as large places such as offices, rooms with many entrances, and long distances in the corridor of houses. It becomes possible, and the lights can be turned on and off from all installed wall switches.

Embodiments of the present invention will be described below.
(B) The circuit is connected to the first wire of two electric cords connected to the power supply in parallel with the instantaneous energization type wall switch (1) installed in many places at all necessary locations and energized only for a moment. After connecting, contact A (8), C (10), E (12), which is energized by the operation of a single instantaneous energization type wall switch (1) between that line and the second line, or Attach a relay (3) to prevent the contacts B (9) and D (11) from switching continuously, connect the first line to the rectifier (2), and connect the second line to the electromagnet Are connected to electromagnets A (6) and B (7) in which the winding direction and the number of turns of the coil wound around the iron core are unified.
(B) A positive current line from the rectifier (2) is connected to the contact (4) operated by the relay (3), and then connected to the contacts A (8) and B (9). Further, each circuit is created by connecting the contact A (8) to the electromagnet A (6) and connecting the contact B (9) to the electromagnet B (7).
(C) The negative current line from the rectifier (2) is connected to the contact (4) operated by the relay (3), and then connected to the contacts C (10) and D (11). Further, each circuit is created by connecting the contact C (10) to the electromagnet B (7) and connecting the contact D (11) to the electromagnet A (6).
(D) Connect the first line of the two electric cords of the other circuit connected to the power source to the contact E (12) and then to the lamp (13), and connect the second line to the lamp (13). Connect to to create a circuit.
(E) Each positional relationship of the seesaw type electromagnet switch part (5) of the circuit is such that a pair of contacts A (8), C (10) are formed on one side of the base (14) with the fulcrum (15) as the center. ), E (12) and electromagnet A (6) are attached, and a pair of contacts B (9), D (11) and electromagnet B (7) are attached to the opposite side of the base (14).
(F) A lightweight plate (16) covering each contact A (8), B (9), C (10), D (11), E (12) and electromagnets A (6) and B (7) ) Is attached to the pedestal (14) so as to be movable in a seesaw manner around the central fulcrum (15), and the magnetic poles of the respective magnetic poles are positioned at the relative positions of the electromagnets A (6) and B (7) of the plate. Permanent magnets A (17) and B (18) having the same orientation are attached.
(G) Each contact point A (8), B (9), C (10), D (11), E (12) of the plate (16) is coiled between the plate (16) and the relative position. When the plate (16) is in a state where the respective sides of the plate (16) are lowered, the contact point A (8), C (10), E on each side (12) Or attach so that it can contact each pair of contact surfaces of B (9) and D (11). Finally, the balance between the left and right weights is adjusted with the fulcrum (15) of the plate (16) as an axis so that the seesaw type can be moved smoothly.
The present invention is configured as described above. When this is used, instantaneous energization type wall switches (1) are mounted in parallel at necessary multiple locations, and a rectifier (2) and a relay (3 ) And seesaw type electromagnet switch part (5), and connect each line according to the circuit diagram.
The plate (16) of the seesaw-type electromagnet switch part (5) is usually lowered on one side with the fulcrum (15) as an axis, and the electromagnet A (6) or B (18) by the magnetic force of the permanent magnet A (17) or B (18) B (7) is attached to the iron core portion, and each energizing plate (19) on the attached side is also contact A (8), C (10), E (12) or contact B (9), D (11 ) To contact each pair of contact surfaces so that it can be energized. When the left side of the plate (16) is lowered as shown in FIGS. 2 and 3, the magnetic force of the permanent magnet A (17) sticks to the iron core portion of the electromagnet A (6), and two current plates (19 ) Also come into contact with each pair of contact surfaces of the contacts A (8) and C (10) and can be energized. At the same time, the pair of contact surfaces of the contact E (12) also contacts the energizing plate (19). Since the power is on, the lamp (13) is turned on. In this state, when any one instant energization type wall switch (1) is turned on, a positive current flows from the contact A (8) to the electromagnet A (6), and the same magnetic pole as that of the permanent magnet A (17). To generate a repulsive force. Also, a negative current flows from the contact C (10) to the electromagnet B (7), generating a magnetic force opposite to the magnetic pole of the permanent magnet B (18), and generating an attractive force. As a result, the plate (16) is inverted about the fulcrum (15) and the right side is lowered, and the magnetic force of the permanent magnet B (18) is attached to the iron core portion of the electromagnet B (7). ) Also comes into contact with the pair of contact surfaces of the contacts B (9) and D (11), and can be energized. At the same time, since the current-carrying plate (19) is separated from the pair of contact surfaces of the contact E (12), the lamp (13) is turned off. Further, when any one instant energization type wall switch (1) is turned on in this state, a positive current flows to the opposite electromagnet B (7), and a negative current flows to the opposite electromagnet A (6). Because of the flow, the magnetic poles of the electromagnets A (6) and B (7) each generate a magnetic pole opposite to the previous one, and the plate (16) is inverted around the fulcrum (15) and the left side is lowered and the contact A (8) And C (10) can be energized, and the contact E (12) is energized again, so that the lamp (13) is lit.

Circuit diagram of the present invention The perspective view of the seesaw-type electromagnet switch part of this invention Sectional view in which the side surface of the seesaw-type electromagnet switch part of the present invention is cut away

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Instantaneous energization type wall switch part 2 Rectifier 3 Relay 4 Contact point operated by relay 5 Seesaw type electromagnet switch part 6 Electromagnet A
7 Electromagnet B
8 Contact A
9 Contact B
10 Contact C
11 Contact D
12 Contact E
13 Electric light 14 Pedestal 15 Support point 16 Plate 17 Permanent magnet A
18 Permanent magnet B
19 Current plate 20 Spring

Claims (1)

  The circuit is connected to the first line of two electric cords of one circuit connected to the power supply in parallel with the instantaneous energization type wall switch installed in multiple places, and between that line and the second line. Attach a relay to prevent the energized contact from switching continuously by operating the instantaneous wall switch, connect the first line to the rectifier, and connect the second line to the electromagnet Connected to electromagnets A and B with the same winding method for the coil wound around the iron core, and then connected the positive current line from the rectifier to the contact operated by the relay, and then connected to contact A and B Further, the contact A is connected to the electromagnet A, the contact B is connected to the electromagnet B, the negative current line from the rectifier is connected to the contact operated by the relay, and then connected to the contacts C and D. , Contact C to electromagnet B, contact D to electromagnet A Then, each circuit is created, and on the other hand, the first wire of the other two electric cords connected to the power source is connected to the contact E and then connected to the lamp, and the second wire is connected to the lamp. Connected to create a circuit, and the positional relationship of the seesaw type electromagnetic switch part of the circuit is to attach contacts A, C, E and electromagnet A on one side of the pedestal around the fulcrum, and to the opposite side of the pedestal Attach the contacts B, D and the electromagnet B to the pedestal so that they can be moved in a seesaw fashion around the center fulcrum. A current-carrying plate in which a permanent magnet having the same magnetic pole orientation is attached to the relative positions of the electromagnets A and B, and a spring is sandwiched between the plate and the relative position of each contact point of the plate. For each connection It is attached so that it can come into contact with a pair of contact surfaces, and finally, the balance of the left and right weights is adjusted with the fulcrum of the plate as the axis so that the seesaw type can be moved smoothly Multi-point wall switch system.

Images