FR2869156A1 - Wide voltage range DC and AC contactor for remote telephone control system, has linkage with one end connected to movable iron core whose bottom is kept within range of retaining coil as magnetic coil is attracted by core - Google Patents

Abstract

The contactor has a linkage (9) with an end connected to a movable iron core (6) and another end connected to a micro-switch (10). The micro-switch has a normally closed contact point serially connected to a magnetic coil (7) from which signals are transferred to an integrated circuit (12) connected to a retaining coil (13). The core has its bottom kept within the range of the coil (13) as the coil (7) is attracted by the core. An independent claim is also included for utilization of a wide voltage range DC and AC contactor for a remote telephone control system.

Description

The present invention relates to a low consumption contactor without noise

  for alternating and continuous currents with wide bandwidth.

  More precisely the contactor comprises: a housing in the interior bottom of which is mounted a static iron core; a mobile copper element installed in the upper part of the housing; each of the two ends of the movable copper element being respectively provided with a mobile silver pellet; static silver pellets being installed beneath the moving silver pellets; two fixed copper elements connected to a wall of the housing; each of the fixed copper elements being disposed with a respective silver lozenge; an intermediate portion of the movable copper member being connected to a movable iron core; a spring disposed between the bottom of the movable iron core and the inner bottom of the static iron core; a magnetic coil wound around a foot of the static iron core, a holding coil wound around another foot of the static iron core.

  When using a known or conventional communication contactor, while the magnetic coil is used to attract an iron coil and prevent it from being ejected backwards, the electric current must pass continuously through the magnetic coil for keep it running, thus driving the magnetic coil to make noise. In addition, the conventional contactor consumes a large amount of electrical energy which increases the cost of operation. In addition, it not only makes the environment unpleasantly noisy, but also reduces the life of the contactor.

  Due to the size of these types of expensive and noisy communication switches, if it is desired to make a contactor without noise, the size of the contactor will increase and the wiring will become more complicated.

  Therefore, the remote telephone control system using the conventional contactor can not be used on a large scale.

  These disadvantages are overcome by a contactor which has a connection having one end connected to the movable iron core, a microswitch 3o connected to another end of the connection, the micro-switch being connected to the magnetic coil, an integrated circuit and the coil maintenance; wherein the movable iron core is retained in the emission location of the holding coil.

  According to other characteristics: the microswitch has a normally closed contact point, the contact point being connected to a magnetic coil; the integrated circuit (IC) being connected to a parallel holding coil.

  - The contactor is used with a telephone, a telephone input wire, a voice system, a keyboard and software to form a remote telephone control system.

  - The contactor is combined with a remote telephone control system to form a control device, the control device is connected directly to a publicly available power supply system and then the telephone wire is connected which thus allows him to fulfill the command function.

  the number of telephones corresponds to the number of electrical devices to be controlled.

  Brief description of the drawings showing an exemplary embodiment of the invention: FIG. 1 is a schematic view showing the noise-free, low-power wide-voltage alternating and continuous current contactor of the present invention; FIG. Fig. 2 is a schematic diagram of the circuit of the magnetic coils holding the coil and the noise-free, low-power, wide-current AC wide-voltage contactor circuit of the present invention; Figure 3 shows the structure of the noise-free wideband, low-power, DC current of the present invention; Fig. 4 is a flowchart of the operation of the noise-free, low-power alternating current and high-voltage DC contactor of the present invention; Figure 5 shows the exterior appearance of the remote telephone control system using the noise-free, low-power wide-voltage AC and DC current contactor of the present invention.

  3o Figures 1 and 2 respectively illustrate, by a schematic view the noise-free low-power contactor for alternating and continuous wide-band voltage currents of the present invention, and by a circuit diagram of the magnetic coils maintaining the coil and the integrated circuit the low-noise, low-power alternating current and high-voltage DC contactor of the present invention. As shown, the contactor according to the present invention comprises a housing 1 in the interior bottom of which is mounted a static iron core 14. A movable copper element 2 is installed in the upper part of the housing 1 and each of the two ends is provided with A movable silver pellet 3. Two fixed copper elements 4 are mounted in the housing 1 and each of the fixed copper elements is arranged with its respective fixed silver pellet. The static silver pellet 5 is placed in front of a corresponding silver mobile pellet 3. The intermediate portion of the movable copper element 2 is engaged in a movable iron core 6. The lower end of the movable iron core 6 is placed inside the emission location of the magnetic coil 7 A spring 8 is mounted between the bottom of the movable iron core 6 and the inner bottom of the static iron core 14. A lower junction 9 has one end connected to the movable iron core 6, and at its other end is connected. to a microswitch 10. The microswitch 10 has a normally closed contact point 11. The normally closed contact point 11 is connected in series with the magnetic coil 7. The signals are transmitted from the magnetic coil 7 to an integrated circuit ( IC) 12 which is connected to a holding coil 13. The normally closed contact point 11 and the magnetic coil 7 are connected in parallel to the integrated circuit 12 to the holding coil 13. The holding coil 13 is It is mounted inside the lower part of the housing 1. The bottom of the movable iron core 6 is kept in the emission location of the holding coil 13 because the magnetic coil 7 has been attracted by the core of Thus, the holding coil 13 can be placed under the magnetic coil 7. The above-mentioned components constitute the low-noise, low-power, wide-band AC voltage and continuous current contactor according to the present invention, as shown in FIG. illustrated in FIG. 3.

  Before switching on the contactor 15, as shown in FIG. 1, the electric current does not pass through the magnetic coil 7, the movable iron core 6 is not attracted downwards and the silver mobile chip 3 is moved away from the static silver chip 3o. Therefore, the contactor 15 is at rest. When the switch 15 is to be operated, as shown in Figs. 1 and 2, an electric current passes through the magnetic coil 7 (because the switch K is closed) so the movable iron core 6 is drawn downwards so as to compress the spring 8. In the same period of time, the The movable copper element 2 moves downwards and the moving silver pellets 3 are connected to the static silver pellets 5 of the fixed copper elements 4 which closes the circuit and activates the switching on of the contactor 15. During the time when the moving silver pellet 3 is in contact with the corresponding static silver pellet, the connection to the moving iron core 6 produces a downward movement to trigger the microswitch 10. Which leads the normally closed contact point 11 to deviate and then cut the circuit of the magnetic coil 7, so no electric current will pass through the magnetic coil 7. The signal produced from the magnetic coil 7 which is no longer transmitted is diverted through the integrated circuit 12 which will transmit the signal Io to the circuit connected in series to the holding coil 13 so as to maintain the conduction of the holding coil 13. As the movable iron core 6 is now inside the the transmission location of the holding coil 13, this holding coil 13 can fix the movable iron core 6 regardless of the weakness of the power level of the holding coil 13. Therefore, the spring 8 is compressed and maintained in place to keep the switch 15 in working position.

  The holding coil 13 is designed to reduce the windings, a smaller diameter and a lower power compared to those of the magnetic coil 7 and to replace this magnetic coil 7. The magnetic coil 7 must consume a lot of energy to attract the movable iron core 6 down and if the magnetic coil 7 is still in operation to maintain the movable iron core 6, then the high energy consumption and the large noise emission will continue. Thus, the present invention uses the holding coil 13 to replace the magnetic coil 7 and to hold the moving iron core 6 after the latter has been pulled down and thus the power consumption and the noise level are reduced. .

  In the event of interruption of the current of the external circuit of the contactor assembly 15, the holding coil 13 and the magnetic coil 7 will stop working and the spring 8 will move the movable iron core 6 upwards and the contactor 15 will be idle until the return of the electric current in the external circuit of the contactor 15 to repeat the above steps.

  The integrated circuit 12 is used for the acquisition of the negative pulse signal produced by the magnetic coil 7 when it has changed conduction state during the interruption, then the integrated circuit 12 will actuate the holding coil 13 Since the holding coil 13 is connected in parallel with the magnetic coil 7, the original circuit is still connected and the contactor 15 will work again.

  As shown in Figs. 3, 4 and 5, a remote telephone control system using the noise-free, low-power AC wideband DC voltage contactor according to the present invention is illustrated. The identical use remote telephone control system is formed by a plurality of contactors 15, a set of telephones 16, an input lead 17 for telephones, a voice system and a keyboard 18. The control system remote telephone control an electric device 19. The telephone input w wire 17 extends from the telephone 16, is connected to a voice system and the keyboard 18. The software is stored in the voice system and the keyboard 18, by its output end is connected to a respective contactor 15. One end of the contactor 15 is connected to an external power source and the other end thereof is connected to the electrical device 19, that is to say an end customer.

  When the telephone 16 receives a call, the method is executed according to steps illustrated in FIG. 4. If it is necessary to control the electrical device 19 remotely, a keyword is entered and the method is executed according to the steps illustrated in FIG. 4. The ON key triggers the connection of the voice system and the keyboard 18 with the magnetic coil 7 (when the switch K is closed see Fig. 2). Then, the movable iron core 6 is drawn downwards, actuating the moving silver pellet 3 to be in contact with the static silver pellet 5. From there, the external electric current will pass through the fixed copper element 4 to the electrical device 19 which will allow the remote control by a telephone of the electrical device 19. During this time, the connection 9 will move downwardly with the movable iron core 6 to actuate the micro-switch 10 thus separating the point of normally closed contact 11 of the magnetic coil 7. The magnetic coil 7 goes from the disconnected connection situation, therefore of transmitting a signal to the integrated circuit 12 which will supply the holding coil 13 to replace the magnetic coil 7 to overcome the force ascending developed 3o by the spring 8 to hold the movable iron core 6 in place. If it is desired to stop the electrical device 19, the software will treat it as well. Finally, the voice system and keyboard 18 will interrupt the power supply of the contactor 15 and therefore the magnetic coil 7 of the contactor 15 (the switch K shown disconnected in Fig. 2) and the moving iron core 6 will move to the high under the effect of the elastic force of the spring 8, thus causing the spacing of the silver pellets 3 to separate the fixed silver pellets 5. Therefore, the switch 15 is at rest and no electric device 19 n ' is operated.

  If it is desired to control a plurality of electrical devices 19, simply increase the number of contactors 15. Accordingly, various electrical devices can be controlled according to the present invention.

  The noise-free, low-power wide-current AC and DC voltage contactor of the present invention can be adapted to use a remote telephone control system, (part of the reception) so as to constitute a device for control 20. As shown in FIG. 5, a power source can be inserted and then the input telephone wire is connected to form a closed circuit reaching which thus fulfills the control function.

Claims (1)

7 CLAIMS   1) low noise consumption contactor for alternating and continuous broadband voltage currents comprising: a housing (1) in the interior bottom of which is mounted a static iron core (14); a movable copper element (2) installed in the upper part of the housing (1); each of the two ends of the movable copper element (2) being respectively provided with a moving silver pellet (3); silver static pellets (5) being installed beneath the moving silver pellets; two fixed copper elements (4) connected to a wall of the housing (1); each of the fixed copper elements (4) being arranged with a respective silver static pellet (5); an intermediate portion of the movable copper member being connected to a movable iron core; a spring disposed between the bottom of the movable iron core and the inner bottom of the static iron core (14), a magnetic coil wound around a foot of the static iron core (14), a holding coil (13) wound around another foot of the static iron core, characterized by a connection (9) of one end of a micro-switch (10) connecting it to the movable iron core, the micro-switch (10) being connected to the magnetic coil (7), an integrated circuit (12) and the holding coil; wherein the movable iron core (6) is retained in the emission location of the holding coil (13).   2) A low-noise, wide-current alternating current and low voltage DC contactor according to claim 1, wherein the microswitch (10) has a normally closed contact point, the contact point being connected to a magnetic coil; the integrated circuit (IC) (12) being connected to a parallel holding coil (13).   3) Use of a noise-free, low-power alternating current and wide-band voltage contactor according to claim 1, with a telephone, a telephone input wire, a voice system, a keyboard and software to form a system. 25 remote telephone control.   4) Use of a low-noise wide-voltage AC and DC voltage contactor according to claim 1, combined with a remote telephone control system to form a control device, the control device being connected directly on a publicly available power supply system and then the telephone wire being connected which thus allows it to fulfill the control function.   5) Use of a noise-free low-power alternating current and broadband voltage contactor according to claim 1, with a set of telephones (16) and where the number of telephones corresponds to the number of electrical devices to be controlled.