(a) Field of the Invention
The present invention is mainly related to two or more than two sets of driving coils of the same individual electromagnetic actuating device being electrified to produce electromagnetic actuating effect, wherein two or more than two sets of driving coils of the same electromagnetic actuating device in parallel connection or series-parallel connection to appear relatively lower impedance is electrified wherein after the electromagnetic actuating device is actuated, the driving coils being manipulated by the switching device are switched to be only partially electrified for excitation thus reducing total currents passing through driving coils while required operating characteristics of the electromagnetic actuating device after electrification to electromagnetic actuation are still satisfied thereby saving electric power and reducing heat loss in the driving coils of the electromagnetic actuating devices.
(b) Description of the Prior Art
For the conventional electromagnetic actuating device driven by passing currents through driving coils to produce the electromagnetic actuating effect, the coil electrification status remains unchanged when the electrification status is actuated and held, i.e. the required excited currents for actuating and holding electrification are the same, therefore it has the disadvantages of the high heat loss and wasting electric energy.
The present invention discloses an electromagnetic actuating device capable of partially holding electrification after being actuated in parallel connection, wherein two or more than two sets of driving coils of the same individual electromagnetic actuating device is manipulated by the switching device, wherein it includes applications for normal close or normal open type electromagnetic brakes, normal close or normal open type electromagnetic clutches, normal close or normal open type electromagnetic switches, normal close or normal open type electromagnetic relays, normal close or normal open type solenoid valves, etc. as well as electromagnets, electromagnetic locks, spiral tube windings or other electromagnetic actuating devices with driving coils for electromagnetic driving effects, or operating type electromagnetic actuating devices which can be driven by driving coils or operated by numerous manual or mechanical power methods; wherein two or more than two sets of driving coils of the same electromagnetic actuating device is manipulated by the switching device to be electrically actuated in parallel connection or series-parallel connection with relatively lower impedance thereby to produce a larger electromagnetic actuating force, and further being manipulated by the switching device after being actuated to switch said two or more than two sets of driving coils to allow only partial driving coils to be electrified for excitation thus reducing total currents passing through driving coils, while required operating characteristics of the electromagnetic actuating device after electrification can still be satisfied thereby saving electric power and reducing heat loss in the driving coils of the electromagnetic actuating device.
The present invention is related to the two or more than two sets of driving coils of the same individual electromagnetic actuating device being manipulated by a switching device, wherein it includes applications for normal close or normal open type electromagnetic brakes, normal close or normal open type electromagnetic clutches, normal close or normal open type electromagnetic switches, normal close or normal open type electromagnetic relays, normal close or normal open type solenoid valves, etc. as well as electromagnets, electromagnetic locks, spiral tube windings or other electromagnetic actuating devices with driving coils for electromagnetic driving effects, or operating type electromagnetic actuating devices which can be driven by driving coils or operated by numerous manual or mechanical power methods; wherein two or more than two sets of driving coils of the same electromagnetic actuating device are manipulated by the switching device to be electrically actuated in parallel connection or series-parallel connection with relatively lower impedance thereby to produce a larger electromagnetic actuating force, and further being manipulated by the switching device after being actuated to switch said two or more than two sets of driving coils to allow only partial driving coils to be electrified for excitation thus reducing total currents passing through driving coils, while required operating characteristics of the electromagnetic actuating device after electrification can still be satisfied thereby saving electric power and reducing heat loss in the driving coils of the electromagnetic actuating device.
The embodiment of the electromagnetic actuating device installed with two driving coils is described in the following:
A switching device (101): It is constituted by an electromechanical switch, an electric relay, an electromagnetic switch or a solid state switching device, etc operable by the manual, mechanical, fluid or electrical power, wherein it is operated by the manual, mechanical, fluid or electrical power that through supplying AC or DC power to at least two sets of driving coils (102′, 112′) installed in the same magnetic actuating device (102) to provide a switching function for electrification and power cut-off, or it is through the switchover operation by the switching device (101) to make the at least two sets of driving coils (102′, 112′) of the electromagnetic actuating device to be electrically actuated in parallel connection or series-parallel connection to appear relatively lower impedance to pass excited currents (Ia) and (Ib) respectively.
The electromagnetic actuating device capable of partially holding electrification after being actuated in parallel connection of the present invention, wherein at least two sets of driving coils (102′, 112′) installed in the same individual electromagnetic actuating device is manipulated by the switching device, whereof the switching modes to switch from connecting in parallel connection or series-parallel connection that appearing relatively lower impedance to only partial driving coils being electrified include:
The electromagnetic actuating device (102): It is constituted by conventional devices structures with at least two AC or DC powered driving coils (102′, 112′) installed such as normal close or normal open type electromagnetic brakes, normal close or normal open type electromagnetic clutches, normal close or normal open type electromagnetic switches, normal close or normal open type electromagnetic relays, normal close or normal open type solenoid valves, etc. as well as electromagnets, electromagnetic locks, spiral tube windings or other electromagnetic actuating devices with driving coils for electromagnetic driving effects, or operating type electromagnetic actuating devices which can be driven by driving coils or operated by numerous manual or mechanical power methods; wherein by the manipulation of the switching device (101), it is electrically actuated in parallel connection or series-parallel connection to appear relatively lower impedance, while only partial driving coils are electrified for excitation thereby saving electric power and reducing heat generation; wherein when only partial driving coils of the at least two sets of driving coils (102′, 112′) installed in the electromagnetic actuating device are electrified for excitation, the required operating characteristics of the electromagnetic actuating device in electrification status are still satisfied by the electromagnetic effective force.
Said individual driving coils (102′, 112′) can be optionally constituted by conducting wires of the same or different material or the same or different conduction cross-section areas, or constituted by windings with the same or different numbers of coils.
The surge absorption devices (103, 113): The AC or DC surge absorption devices being optionally installed according to specifications of electromagnetic actuating devices are respectively parallel connected with driving coils (102′, 112′) to help absorbing the produced inductance of counter-electric potential in driving coils (102′, 112′) when driving coils (102′, 112′) are operated by the switching device (101) to open or close, or to be parallel connected or series-parallel connected to appear relatively lower impedance, or to be switched to relatively higher impedance with only partial driving coils being electrified, wherein the surge absorption device is constituted by the following: (1) When driving coils (102′, 112′) are powered by AC power, the AC surge absorption device (103) installed can be constituted by a bipolar solid state varistor, or constituted by at least two kinds of components of the resistors, inductors, bipolar capacitors, etc. in series connection, parallel connection, or series-parallel connection, or constituted by the bipolar capacitor alone, or constituted by other conventional AC surge absorption circuit devices; (2) When driving coils (102′, 112′) are powered by the DC power with lower voltage, the DC surge absorption device (113) installed can be constituted by reverse polarity diodes in parallel connection to appear a flywheel diode with energy storage effect, or constituted by at least two kinds of components of the resistors, inductors, uni-polar or bipolar capacitors in series connection, parallel connection, or series-parallel connection, or constituted by the uni-polar or bipolar capacitor alone, or constituted by the solid state varistor or other conventional DC surge absorption devices; wherein this device can be optionally installed or not installed as required.
In practical applications, wherein the two or more than two sets of driving coils installed in the electromagnetic actuating device capable of partially holding electrification after being actuated in parallel connection of the present invention can be constituted by the same or different driving coils.
For the electromagnetic actuating device capable of partially holding electrification after being actuated in parallel connection, the switching method of the at least two sets of driving coils (102′, 112′) installed in the same individual electromagnetic actuating device to switch from connecting in parallel connection or series-parallel connection that appearing relatively lower impedance to only partial driving coils being electrified is further as shown in
The position detector device (105) can be constituted by pressure sensing type electromechanical switching devices or pressure-actuating spring leaf type switches, or can be constituted by optical, electromagnetic inducing type, capacitive inducing type or other conventional position sensing devices, wherein this device can be optionally installed or not installed as required.
As summarized from the above descriptions, at least two driving coils installed in the same individual electromagnetic actuating device of the electromagnetic actuating device capable of partially holding electrification after being actuated in parallel connection can be electrically actuated in parallel connection or series-parallel connection to appear relatively lower impedance so as to obtain larger actuating power and actuating response characteristics, and further through manipulation by the switching device to switch said at least two sets of driving coils to only partial driving coils being electrified thus reducing total currents passing through driving coils, while required operating characteristics of the electromagnetic actuating device in electrification by the electromagnetic effective force can still be satisfied thereby saving electric power and reducing heat generation of the electromagnetic actuating device.