JP2008293785A - Switch assembling set combined with flexible controller, and its application on electric product - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a switch assembling set combined with a flexible controller and its application on an electric product. <P>SOLUTION: The switch assembling set combined with the flexible controller can be combined rapidly to the back of a switch by a coupling unit to continuously connect flexible conductor lines, and the switch generates a movement action and presses the conductor line, and transmits the movement action to a remote end through a core wire freely slide-moving in the conductor line. This device is applied to an electric switch and can convert the well-known electric switch easily into a special electric switch having a function and an effect of the device, and can control an electric switch on a panel. Thereby, the switch can control one or many electric objects by an remote control operation. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a switch assembly set combined with a kind of flexible controller and its application on an electrical product. It is a device that can be applied to a kind of electrical system control in particular, and can be quickly coupled to the back of the electrical switch, and the movement generated by the electrical switch is transmitted to the remote end device through a core wire that can be slid freely inside the flexible conductor The switch assembly set that combines the flexible controller and its application on electrical products.

  In order to prevent electrical current system accidents caused by abnormal current overloads, most of the power distribution circuits are no-fuse breakers (abbreviated as NFB. Also known as Molded Case Circuit Breaker, MCCB. Also known as Mini- Circuit Breaker, MCB) (abbreviated as MCB) and used as the power supply switch for the section circuit. Another major function of the device is to immediately trip and disconnect the power supply when an overcurrent occurs in the section circuit, thereby preventing a large amount of leakage or shorting of the controller or power usage equipment. In an electric system, it is necessary to immediately determine which section of the circuit supply has an abnormality when the system is suddenly powered off.

  The main purpose of installing a no-fuse breaker in an electric circuit system is to immediately trip (TRIP) and cut off the power supply even if the current flowing through the circuit becomes abnormal or an overload current occurs. This prevents the occurrence of danger, but the circuit is de-energized due to an artificial OFF operation or trip due to a no-fuse breaker. The manager of the center should check whether the no-fuse breaker has been turned off manually (OFF) or whether the no-fuse breaker tripped due to a circuit overload or failure and the power was cut off. It cannot be judged. Separately, the trip function of the no-fuse breaker must also be tested periodically or when necessary to ensure the safety of the electric machine. So how to test a no-fuse breaker at a long distance is a question worth studying.

The electrical parts that must be in the electrical equipment must be controlled directly by electrical switches on the control panel, and in the most common case, this is a test operation of a motor control center (MCC) trip operation switch.
In order to complete the test operation of the trip operation switch at a long distance, as shown in FIG. 1, in the known technique, an electric switch 30 having a long handle 36 is specially produced and installed on the operation panel 70. Since the length of the long handle 36 differs depending on the size of each switch box or the electrical target and each manufacturer's product, standardization is very difficult. Therefore, it is necessary to prepare an extremely wide variety of lengths. If the handle is too short, the length of the handle is insufficient, and a problem arises in that it cannot be operated by being in contact with an electrical target. The controlled portion 41 of the electrical target 40 to be pushed must also be accurately installed in the distribution box in the operation panel, otherwise it will drive the long handle 36 associated with the button 31 of the electrical switch 30 and The controlled part 41 of the electrical target 40, such as a trip action (TRIP) switch of a fuse breaker, cannot be pressed accurately.

  As described above, each of the known techniques has had a predisposition to influence inaccuracy and installation difficulties for a long time. Therefore, production and installation of a switchboard has not been easy. In addition, during use, the position of the switch changes due to factors such as loose switches on the switchboard control panel or shocks or vibrations on the switchboard control panel, affecting the long handle attached to the buttons of the electrical switch. The aim could not be aimed at the target and the control action on the long electrical target was invalidated.

  The main object of the present invention is to provide a switch assembly set combined with a flexible controller, and a known electrical switch can be easily retrofitted into a device capable of operating and controlling an electrical target at a long distance.

  An object of the present invention is to provide a switch combined with a flexible controller, the structure of the flexible controller is simple, easy to produce, convenient to install, and can be combined with a switch assembly set of a known flexible controller of an electric switch, It is possible to solve the problem that it is not easy to produce and install a known switchboard, thereby making its manufacture and installation more convenient and flexible.

  An object of the present invention is to provide an electric switch that is fixed integrally with a flexible conductive wire, and solves the problem that it is not easy to produce and install a known switchboard, thereby making its manufacture and installation more convenient. Make it elastic.

  An object of the present invention is to provide a method of applying a switch assembly set combined with a flexible controller on an electrical product, thereby enabling a movement operation generated by the electrical switch to be accurately transmitted to an electrical target.

  An object of the present invention is to provide a method for manufacturing a switch assembly set combined with a flexible controller, and to solve the problem that it is not easy to produce and install a known switchboard. Make it convenient and resilient.

  In order to achieve the above-mentioned object, the present invention designs a switch assembly set combined with a flexible controller, and its manufacturing and application method, and simplifies the design concept of the corresponding connection between known switches and in particular electrical switches. The present invention allows the coupling unit connecting the flexible conductive wires to be easily and quickly coupled to the back of a known electrical switch. When the electrical switch causes a movement operation and touches the conductive wire, it can be freely connected inside the conductive wire. The potential energy can be transmitted by a slidable core wire, and pressure control can be performed on an object at a long distance, for example, an electric target.

That is, the optimum embodiment of the switch assembly set coupled with the controller of the present invention includes a conductive wire and a coupling unit.
The conducting wire comprises at least one sleeve. The sleeve has a first end and a second end, and a core wire that freely slides in the sleeve. The core wire is exposed at the first end and the second end of the sleeve, and the first end controls the sleeve. When received, the second end transmits the potential energy to the target property to achieve control. The body of the coupling unit includes coupling combination parts and is coupled to the electric switch in a dismountable manner. The body of the coupling unit secures the first end of the sleeve, so that the core wire exposed at the first end of the sleeve can receive the moving action generated by the electrical switch.

In another preferred embodiment, the switch assembly set coupled with the flexible controller of the present invention includes a conductive wire, a coupling unit, and an auxiliary coupling unit.
The structure of the conductive wire is as described in the first type embodiment, and the main body of the auxiliary coupling unit includes a first coupling combination part, and in addition to being detachably coupled to the electric switch, at least one second A coupling combination part is provided for coupling to at least one coupling unit. That is, the main body of the coupling unit includes a coupling combination part and is detachably coupled to the second coupling combination part of the auxiliary coupling unit. As in the first type embodiment, the main body of the coupling unit fixes the first end of the sleeve, so that the core wire exposed at the first end of the sleeve can receive the moving operation generated by the electric switch. The kinetic energy can accurately control the target property at the remote end, such as the controlled part of the electrical target.

  A typical application of the present invention is that the movement motion generated by an electrical switch is transmitted to a trip motion switch of an electrical target to activate the trip motion switch. That is, the present invention includes a method of applying a switch assembly set combined with a flexible controller on an electrical product. The method couples the first end of the controller connecting the flexible conductive wires to the back of the electrical switch, and further couples the second end of the controller to the electrical target so that the movement action that the electrical switch produces is the conductive wire. It is transmitted to the electrical target via a core wire that freely slides inside. The most suitable sub-method is that the first end of the controller is releasably coupled to the back of the electrical switch by a coupling unit.

  The flexible conductive wire of the present invention can be directly fixed integrally with the electric switch, instead of being combined and fixed by the coupling unit. A button switch or dial switch, such as a button or dial, that is commonly used on electric products has an operation unit and a spring, so that the original state is restored after operation. In any case, the electrical switch includes an operating part capable of generating axial movement energy. A conductive wire having a slidable core wire is fixed to the back of the electric switch, and the core wire is controlled by an operating component in the electric switch. A space is provided between a bottom lid and a shoulder edge of the electric switch, and a protruding edge at one end of the sleeve of the conductive wire is held in the space.

  Whichever embodiment of the present invention is implemented, the apparatus includes a support frame unit, which is fixedly connected to an electrical target to be controlled, includes a coupling head, and the second end of the conducting wire is connected to the second end. Combine on the support frame unit.

  The optimum embodiment of the support frame unit according to the invention comprises a support frame, the bottom plate of which is fixedly connected to the electrical target to be controlled and fixed with the coupling head. The core wire at the second end of the flexible conductive wire sleeve passes through a hole previously installed in the coupling head and is aimed at a controlled portion of the electrical target. In another simpler implementation, the support frame of the support frame unit is fixed on an electrical target using other equivalent methods.

  The optimum example of the core wire in the optimum embodiment of the present invention is at least one of a hard wire, a spring wire, or any other suitable core wire capable of transmitting positional energy, and at the end of the core wire is a pushing piece. And a larger or longer auxiliary push piece at the end of the push piece, thus enabling control over different sized controlled parts of a manufacturer's no-fuse breaker.

  The most suitable example of the conductive wire is a flexible conductive wire that can be bent, and is pivotably provided. In order to reduce friction inhibition and allow control of more distant electrical targets, the optimal example between the conductive wire sleeve and the core wire within the sleeve includes an intermediate layer. A tubular passage is formed inside the intermediate layer, and the core wire is slidable therein. In a more detailed design, both ends of the sleeve of the conductor wire are formed with protruding edges, whereby both ends of the sleeve of the conductor wire are pivotally pivoted, and the sleeve of the conductor wire is fixed but rotatable It is.

  The detail design of the support frame unit includes a support frame, which includes a bottom plate and a top plate. The bottom plate is fixedly connected to an electrical target to be controlled, the top plate secures the second end of the flexible conductive wire sleeve, the top plate has a hole through which the conductive wire core passes, Corresponds to the controlled part of the electrical target. The support frame of the support frame unit includes components that can adjust the height of the upper plate and its swing angle.

  A typical application resulting from the functions and effects of the present invention allows one or many electrical targets to be manipulated and controlled at a location relatively remote from the control center. In particular, the design of the present invention can be applied to known electrical switches, which can be easily retrofitted to the device of the present invention. The structure of the flexible controller of the present invention can be quickly coupled to a switch capable of producing known kinetic energy, and in particular this allows an electrical switch to accurately control an electrical target. Therefore, it is possible to control the trip operation switch of the electric parts while eliminating the troublesome work of the switch at the time of installation, simplify the installation and maintenance work, and solve the problem that the installation existing in the known technology is difficult. Can do. According to the present invention, an electric switch can accurately control an electric target while keeping a distance, and a control center provides an electric device capable of operating and controlling one or many electric targets from a further distance. It is possible to improve the convenience and elasticity of installation and provide wider applicability.

  A method for constructing a switch assembly set comprising the flexible controller of the present invention is shown in FIGS. The reciprocating arrows in the figure indicate that they can be combined or disassembled. In addition, although the electric switch 30 is described as an illustrative example, the general electric switch 30 includes a homogenous standard coupling component and couples and installs an electric wire connector. The connecting part generally comprises a pair of flanges 33. Therefore, in addition to the need to design a controller having a special flexible conductive wire 10 in design, a coupling unit 20 to be fixed to the controller is designed, and the coupling unit 20 corresponds to the flange 33 mutually. There is a need to. In this way, the controller including the flexible conductive wire 10 and the electrical switch 30 are detachably coupled as shown in FIG. 3 or FIG.

Next, as FIG. 4 further illustrates, the auxiliary coupling unit 25 is designed.
The main body of the auxiliary coupling unit 25 includes a first coupling combination part 27, and in addition to being detachably coupled to the electric switch 30, the auxiliary coupling unit 25 further includes at least one second coupling combination part 28, and includes at least one coupling unit 20. Join. With such a design, one electrical switch 30 can drive and control a large number of electrical targets at the same time through transmission of a large number of conductive wires 10.

  As shown in the optimum embodiment of FIG. 5, the switch assembly set to which the flexible controller of the present invention is coupled has a conductive wire 10 having a core wire 11 that can be freely slid inside. The moving motion generated by the button 31 is transmitted to the controlled portion 41 of the electrical target 40, which causes the motion to occur. The electric target 40 is a no-fuse breaker or the like, and the most typical example of the controlled portion 41 is a trip operation switch. In this way, during repair or inspection, the motor control center (MCC) can be operated and controlled at a distance and can cause a trip action.

As shown in FIG. 5, the optimal embodiment of the flexible controller of the present invention includes a conductive wire 10 and a coupling unit 20.
The conductive wire 10 includes at least one sleeve 12, which has a first end (upper end in the drawing), a second end (lower end in the drawing), and a core wire 11 that freely slides in the sleeve 12. With The core wire 11 is exposed at the first end and the second end of the sleeve 12, and when the end head 110 of the first end is controlled by the driving component 311 of the button 31 of the electrical switch 30, the core wire 11 passes through the core wire 11. The potential energy is transmitted to the target property by the pushing piece 14 at the second end. The electrical target 40 is a controlled part 41 of a no-fuse breaker, or a trip action switch, to achieve the control objective. In other words, one of the typical applications of the present invention is to transfer the moving operation produced by the electrical switch 30 to the trip operation switch of the no-fuse breaker, whereby the trip (TRIP) operation switch disconnects power.
The main body 21 of the coupling unit 20 includes a coupling combination part 22, and an optimum example thereof is a flange having elasticity by plastic molding with a claw end fitted on a flange 33 at the lower edge of the electrical switch 30. Thus, the coupling unit 20 is coupled to the electric switch 30 in a dismountable manner. The main body 21 of the coupling unit 20 fixes the first end of the sleeve 12, whereby the end 110 of the core wire 11 exposed at the first end of the sleeve 12 is compressed and controlled by the driving component 311 of the button 31, The core wire 11 is subjected to a moving operation in which the button 31 of the electric switch 30 is generated.

As shown in FIGS. 6 and 7, which are another preferred embodiment, the flexible controller of the present invention includes at least one conductive wire 10, at least one coupling unit 20, and an auxiliary coupling unit 25.
The structure of the conductive wire 10 is as described in the first type embodiment, and the body 26 of the auxiliary coupling unit 25 includes a first coupling combination part 27 (shown at the upper inner edge of the auxiliary coupling unit 25 in FIG. 7). ), In addition to being releasably coupled to the electrical switch 30, and at least one second coupling combination part 28 (shown at the outer edge of the lower end of the auxiliary coupling unit 25 in FIG. 7), and coupling at least one of the coupling units 20 To do. As shown in FIG. 6, the auxiliary coupling unit 25 coupled to the electric switch 30 is combined by a large number or two coupling units 20, and the driving component 311 at the lower end of the button 31 is simultaneously in the two coupling units 20. Pressure control of the end 110 of the core wire 11 is performed. That is, the main body 21 of each coupling unit 20 includes a coupling combination part 22 and is coupled to the second coupling combination part 28 of the auxiliary coupling unit 25 in a dismountable manner. As in the first type embodiment, the main body 21 of the coupling unit 20 fixes the first end of the sleeve 12, and the core wire 11 exposed at the first end of the sleeve 12 performs the moving operation generated by the electrical switch 30. The kinetic energy of the electric switch 30 can be accurately controlled at the remote end target property. A typical example of an electrical target is a controlled part of a no-fuse breaker, such as a trip operation switch of a no-fuse breaker.

  The optimum embodiment is an explanation of the flexible controller of the present invention. From the viewpoint of the product type, the present invention can be combined with a known electric switch to form a composition. At this time, using the combination part of the electrical switch 30 composed by the present invention, its spatial structure type is like the traditional electrical switch 30, but at the back part, at least one set of electrical switch is fast coupled, It has a flexible controller that can be disassembled. As a result, the mechanical operation of the electrical switch causes a moving operation and comprises at least one flexible controller combination part. Each of the flexible controller combination parts has a conductive wire 10 having a core wire 11 slidably movable therein, and the core wire 11 is controlled by a button 31 in the electric switch 30. The conductive wire 10 includes at least one sleeve 12 and a core wire 11 that can freely slide within the sleeve 12, and the core wire 11 is a hard wire, a spring wire, or other suitable core wire capable of transmitting potential energy, The best example is a spring wire. An optimal example of the conductive wire 10 is a bendable flexible conductive wire, and the optimal example further includes an intermediate layer between the sleeve 12 and the core wire 11, and a tubular passage is formed inside the intermediate layer. Slide movement is possible in it.

Regardless of the type of the present invention, the apparatus includes a support frame unit 50 and a coupling head 60, as shown in FIG.
The support frame unit 50 is fixedly connected to the electrical target to be controlled, and the coupling head 60 couples the second end of the conductive wire 10 onto the support frame unit 50 so that the controlled portion of the electrical target 40 is controlled. Approach 41.
At both ends of the sleeve 12 of the conductive wire 10, protrusions 121 and 122 are provided, respectively. Since the projecting edge 121 is pivotally mounted in the coupling unit 20 so as to be rotatable, the sleeve 12 of the conductive wire 10 is fixed to the coupling unit 20 but can rotate. Further, the protruding edge 122 at the opposite end of the conductive wire 10 is coupled into the coupling head 60 and is fixed to the coupling head 60, but is rotatable.
A lid plate 61 is fixed to the upper end of the main body of the coupling head 60. After the conductive wire 10 passes through a hole previously set in the lid plate 61, the rear end of the bolt 62 is screwed into the main body and fixed. The bolt 62 protruding forward is screwed into the upper plate 53 of the support frame unit 50 and then fixed by the nut 63. Therefore, the sleeve 12 of the conductive wire 10 is fixed to the coupling head 60 but can rotate. The protruding edge 122 of the sleeve 12 is held in a hole in the body of the coupling head 60, that is, can rotate between the cover plate 61 and the bolt 62 of the coupling head 60. The core wire 11 that slides and moves freely in the sleeve 12 continues to pass through a hole previously set in the bolt 62 and is exposed to the outside of the bolt 62, and the push piece 14 is coupled. This is all a detailed design embodiment of the combination of the coupling head 60 and the sleeve 12.
The pushing piece 14 installed at the lower end of the core wire 11 inside the conductive wire 10 can be added with a larger or longer auxiliary pushing piece 13, which allows a controlled part 41 of a different size of a manufacturer's no-fuse breaker to be controlled. It becomes possible to respond, and the control becomes effective.

  The support frame unit 50 includes a support frame 51, and a bottom plate 52 of the support frame unit 50 is fixedly connected to the electric target 40 to be controlled, and may be directly fixed on the electric target 40. As shown in the illustrated embodiment, the top plate 53 secures the second end of the sleeve 12 of the flexible conducting wire 10 and has a hole through which the conducting wire 10 passes, whereby the core wire 11 is connected to the electrical wire 11. This corresponds to the controlled portion 41 of the target object 40. The support frame 51 of the support frame unit 50 includes components such as bolts for adjusting the altitude of the upper plate 53 and design parts for adjusting the swing angle and horizontal position, for example, a long hole on the upper plate 53. It has some adjustment holes. In this way, the present invention can be installed corresponding to products of different manufacturers and electrical targets of different sizes.

  As shown in FIG. 8, the flexible conductive wire 10 of the present invention can also be directly fixed to the electrical switch 30 to form an integral body, instead of being combined and fixed by a coupling unit. The button switch or dial switch on the distribution box operation panel 70 includes an operation unit such as a button 31 or a dial. In addition, the spring 35 is provided, and the original state is restored after the operation. In any case, the electric switch 30 includes an operating component capable of generating axial movement energy. A conductive wire 10 having a core wire 11 that is slidable inside is fixed to the back of the electric switch 30, and the core wire 11 is controlled by operating parts in the electric switch 30. A space is provided between the bottom lid 34 and the shoulder edge 32 of the electrical switch 30, and the protruding edge 121 at one end of the sleeve 12 of the conductive wire 10 is held in the space.

It is the schematic which installs in the electrical switch operation panel which provides a well-known long handle, and controls an electric target. FIG. 2 is a schematic diagram of a method for constructing a switch assembly set comprising the flexible controller of the present invention. FIG. 3 is a schematic diagram similar to FIG. 2 but illustrating the state during coupling. FIG. 4 is a schematic view of another type of method for constructing a switch assembly set comprising the flexible controller of the present invention. It is a plane cross-sectional schematic diagram of the switch assembly set optimal example which couple | bonded the flexible controller of this invention. It is a plane combination schematic diagram of the 2nd kind optimum example of the switch assembly set of the present invention. It is sectional drawing in the AA of FIG. FIG. 6 is a schematic cross-sectional view of a third type optimum embodiment of the switch assembly set of the present invention, showing only the structure of a portion different from the embodiment of FIG. 5.

Explanation of symbols

10 Conductor wire
11 core wire
110 beginning
12 sleeve
13 Auxiliary push piece
14 Push piece
121 ridge
122 ridge
20 coupling units
21 Body
22 Combined combination parts
25 Auxiliary coupling unit
26 Body
27 First combination parts
28 Second combined combination parts
30 Electric switch
31 button
32 shoulder edge
33 Flange
311 Drive parts
34 Bottom cover
35 Spring
40 Electrical targets
41 Controlled part
50 Support frame unit
51 Support frame
52 Bottom plate
53 Upper plate
60 coupling head
61 Cover plate
62 volts
63 nut
70 Operation panel

Claims (18)

  A switch assembly set combined with a flexible controller is connected to the back of the electrical switch by a coupling unit that connects the flexible conductive wires, and the moving operation generated by the electrical switch can be freely slid and moved inside the conductive wire. A switch assembly set combined with a flexible controller characterized by being transmitted via. The switch assembly set coupled with the flexible controller according to claim 1, wherein the switch assembly set coupled with the flexible controller includes a conductive wire and a coupling unit.
The conductive wire includes at least one sleeve, the sleeve having a first end and a second end, and a core wire freely slidably moved within the sleeve, the core wire being connected to the first end of the sleeve and the core. Exposed at the second end,
The main body of the coupling unit includes a coupling combination part and is removably coupled to the electric switch. The main body fixes the first end of the sleeve, and the core wire exposed at the first end of the sleeve is an electric motor. A switch assembly set combined with a flexible controller, which is characterized by receiving the movement that the switch generates. The switch assembly set coupled with the flexible controller according to claim 1, wherein the switch assembly set coupled with the flexible controller includes a conductive wire, an auxiliary coupling unit, and a coupling unit.
The conductive wire includes at least one sleeve, the sleeve having a first end and a second end, and a core wire freely slidably moved within the sleeve, the core wire being connected to the first end of the sleeve and the core. Exposed at the second end,
The body of the auxiliary coupling unit comprises a first coupling combination part, releasably coupled to the electrical switch, and at least one second coupling combination part;
The body of the coupling unit comprises a coupling combination part and is releasably coupled to the second coupling combination part of the auxiliary coupling unit, the body of the coupling unit fixing the first end of the sleeve, thereby A switch assembly set combined with a flexible controller, wherein the core wire exposed at the first end of the sleeve is subjected to a moving operation generated by an electric switch. The switch assembly set coupled with the flexible controller according to claim 1, wherein the switch assembly set coupled with the flexible controller further includes a support frame unit and a coupling head,
The support frame unit is fixedly connected to the electrical target to be controlled,
A switch assembly set coupled with a flexible controller, wherein the coupling head couples the second end of the conductive wire onto the support frame unit.   The switch assembly set combined with the flexible controller according to claim 1, wherein the core wire is at least one of a hard wire, a spring wire, and other suitable core wires capable of transmitting potential energy, and is disposed at an end of the core wire. Is a switch assembly set combined with a flexible controller, characterized in that a push piece is installed and a larger or longer auxiliary push piece is added to the end of the push piece.   The switch assembly set combined with the flexible controller according to claim 1, wherein the conductive wire is a flexible conductive wire that can be bent and pivotally pivoted.   The switch assembly set coupled to the flexible controller according to claim 1, further comprising an intermediate layer between the sleeve of the conductive wire and the core wire in the sleeve, and forming a tubular passage inside the intermediate layer, the core wire Is a switch assembly set combined with a flexible controller characterized by sliding freely inside.   The switch assembly set combined with a flexible controller according to claim 4, wherein the support frame unit includes a support frame, a bottom plate of which is fixedly connected to an electrical target to be controlled, and an upper plate of which is fixed to the coupling head. A switch coupled to a flexible controller, wherein the core wire at the second end of the sleeve of the flexible conductive wire passes through a hole previously set in the coupling head and corresponds to a controlled portion of the electric target. Assembly set.   The switch assembly set combined with a flexible controller according to claim 4, wherein the support frame of the support frame unit can be directly fixed on the electric target. .   5. The switch assembly set combined with a flexible controller according to claim 4, wherein a movement operation generated by the electric switch is transmitted to a trip operation switch of an electric target. The electrical switch for coupling the flexible controller includes an electrical switch, at least one flexible controller combination component,
The mechanical operation of the electrical switch produces a moving operation,
The at least one flexible controller combination component includes a conductive wire, a coupling unit;
The conducting wire includes at least one sleeve, the sleeve having a first end and a second end, and a core wire freely slidably moved within the sleeve, the core wire having the first end of the sleeve and the core. Exposed at the second end,
The body of the coupling unit comprises a coupling combination part and is releasably coupled to the electrical switch, the body being fixed to the first end of the sleeve, whereby the core wire exposed at the first end of the sleeve is An electric switch for coupling a flexible controller characterized by receiving a moving operation generated by an electric switch.   12. The electric switch for coupling a flexible controller according to claim 11, wherein the electric switch for coupling the flexible controller further includes an auxiliary coupling unit, and the auxiliary coupling unit is detachable after coupling at least one set of the flexible controller combination parts. An electric switch for coupling a flexible controller, wherein the auxiliary coupling unit is further releasably coupled to the electric switch.   A flexible controller in which a flexible conductive wire is fixed behind a switch assembly set coupled with a flexible controller, and a moving operation generated by the electric switch is transmitted via a core wire that freely slides inside the conductive wire. Combined switch assembly set. The method of constructing a switch assembly set comprising a controller includes the following methods: constructing a controller comprising at least one conducting wire,
Installing the coupling unit at the end of the controller with each flexible conducting wire;
A method for constructing a switch assembly set including a controller, wherein the coupling unit and the coupling component of the switch correspond to each other and can be coupled to each other or disassembled. 15. A method of constructing a switch assembly set comprising a controller according to claim 14, wherein the method of constructing a switch assembly set comprising the controller further comprises:
Configure the auxiliary coupling unit,
The first coupling combination part is installed at the first end of the auxiliary coupling unit, whereby the first coupling combination part is coupled to the electric switch so as to be coupled or disassembled.
A second coupling combination part is installed at the second end of the auxiliary coupling unit, whereby the second coupling combination part is coupled to the coupling unit at the controller end so as to be coupled or disassembled. A method of constructing a switch assembly set.   15. A method of constructing a switch assembly set comprising a controller according to claim 14, wherein the conductive wire is formed of a flexible material, and a core wire that is freely slidable in a sleeve of each conductive wire is mounted, and the core wire is mounted. A method of constructing a switch assembly set comprising a controller, characterized in that the positional energy produced by the switch is transmitted. The method of applying a switch assembly set combined with a flexible controller on an electrical product includes the following methods:
Connect the first end of the controller connecting the flexible conductive wires to the back of the electrical switch,
Further, the second end of the controller is coupled to the electric target, and the moving operation generated by the electric switch is transmitted to the electric target via the core wire that freely slides inside the conductive wire. Applying a switch assembly set combined with a flexible controller on electrical products.   18. A method of constructing a switch assembly set comprising a controller according to claim 17, wherein the first end of the controller is releasably coupled to the back of the electrical switch by a coupling unit. How to construct an assembly set.

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