摘要:
An induction generator (100) for a remote switch which comprises a U-shaped magnetic diverter (102) with first and second limbs as well as a coil core (104) with an induction coil (106) arranged between the limbs. A movable magnetic element (110) is provided for switching the induction generator (100). When the magnetic element (110) is in its first position, the magnetic element (110) is connected with the first limb and the coil core (104) and, when the magnetic element (110) is in its second position, the magnetic element (110) is connected with the coil core (104) and the second limb.
摘要:
An induction generator (100) is proposed, having at least one permanent magnet (130) for generating a permanent magnetic field (138), at least one reflux plate (106) for guiding the permanent magnetic field (138), a coil (108) and a spring element (104), wherein the permanent magnet (130) and the reflux plate (106) are separated from one another by an air gap (140) through which the permanent magnetic field (138) passes, and wherein the coil (108) is connected to the spring element (104) and is movably disposed in the air gap (140), characterized in that the spring element (104) is designed to cause an oscillation movement of the coil (108) in the air gap (140) transverse to a magnetic flux of the permanent magnetic field (138) inside the air gap (140) in response to a deflection of the coil (108).
摘要:
The current embodiments provide a switch device for a wireless pushbutton, wherein the switch device comprising an energy conversion mechanism, a signal output mechanism, an actuation device, and a plurality of encoding contacts. The actuation device may be configured to establish contact with at least one of the plurality of encoding contacts when a first quantity of an actuation force is applied for generating an encoded signal. The actuation device may be configured to activate the energy conversion mechanism to generate energy when a second quantity of an actuation force greater than the first quantity is applied to the activation device. The signal output mechanism may be configured to transmit a wireless output signal using the encoded signal when the energy conversion mechanism is activated.
摘要:
An induction generator (200; 301) having a magnet assembly (204; 304) for generating a permanent magnetic field, an annular coil (206; 306), a spring element (228; 328) and an air channel (212; 312) through which the permanent magnetic field passes, is proposed, wherein the magnet assembly (204; 304) comprises a first pole section (208; 308) and a second pole section (210; 310) and a magnet (214; 314) disposed between the first pole section (208; 308) and the second pole section (210; 310), the coil (206; 306) is connected to the spring element (228; 328) and is movably disposed in the air channel (212; 312) and the spring element (228; 328) is designed to cause an oscillation movement (224) of the coil (206; 306) in the air channel (212; 312) transverse to a magnetic flux (222; 322) of the permanent magnetic field inside the air channel (212; 312) in response to a deflection of the coil (206; 306), characterized in that the air channel (212; 312) is annular and is designed to accommodate the annular coil (206; 306) in its entire circumference.
摘要:
Provision is made for a switching device for a wireless switch. The switching device comprises actuating means for receiving a mechanical energy, which can be introduced during a switching operation into the switching device. Furthermore, the switching device with the actuating means and with an energy conversion device comprises mechanically connectible switching means for transmitting the mechanical energy from the actuating means to the energy conversion device, in order to convert the mechanical energy to an electrical energy for transmitting a switching signal. At the same time, the switching means are designed to be actuated during a switching operation by means of the actuating means, in order to transfer, when connected with the energy conversion device, the energy conversion device at least from a first stable condition to a second stable condition, which is different from the first stable condition, in order to produce at least one electrical energy impulse.
摘要:
An induction generator (100) is proposed, having at least one permanent magnet (130) for generating a permanent magnetic field (138), at least one reflux plate (106) for guiding the permanent magnetic field (138), a coil (108) and a spring element (104), wherein the permanent magnet (130) and the reflux plate (106) are separated from one another by an air gap (140) through which the permanent magnetic field (138) passes, and wherein the coil (108) is connected to the spring element (104) and is movably disposed in the air gap (140), characterized in that the spring element (104) is designed to cause an oscillation movement of the coil (108) in the air gap (140) transverse to a magnetic flux of the permanent magnetic field (138) inside the air gap (140) in response to a deflection of the coil (108).
摘要:
The present disclosure relates to a device for an actuation handle, having an actuation bolt, which has at least one section along its longitudinal axis (A) having at least one outer edge on its circumference. The device comprises a housing having a first receiving section for receiving an energy converter for supplying electrical energy to a radio transmitter by converting mechanical energy into electrical energy, and an aperture for the actuation bolt, wherein the aperture has a second receiving section for rotatably accommodating the section of the actuation bolt having at least one outer edge. The device is characterized in that the first receiving section is disposed such that it is adjacent to the aperture, wherein a switch element of the energy converter extends into a rotational path of the at least one outer edge when the energy converter is in a receiving state, and can be actuated such that it causes a switching by means of the at least one outer edge during a rotation of the actuation bolt.
摘要:
An induction generator (200; 301) having a magnet assembly (204; 304) for generating a permanent magnetic field, an annular coil (206; 306), a spring element (228; 328) and an air channel (212; 312) through which the permanent magnetic field passes, is proposed, wherein the magnet assembly (204; 304) comprises a first pole section (208; 308) and a second pole section (210; 310) and a magnet (214; 314) disposed between the first pole section (208; 308) and the second pole section (210; 310), the coil (206; 306) is connected to the spring element (228; 328) and is movably disposed in the air channel (212; 312) and the spring element (228; 328) is designed to cause an oscillation movement (224) of the coil (206; 306) in the air channel (212; 312) transverse to a magnetic flux (222; 322) of the permanent magnetic field inside the air channel (212; 312) in response to a deflection of the coil (206; 306), characterized in that the air channel (212; 312) is annular and is designed to accommodate the annular coil (206; 306) in its entire circumference.
摘要:
The current embodiments provide a switch device for a wireless pushbutton, wherein the switch device comprising an energy conversion mechanism, a signal output mechanism, an actuation device, and a plurality of encoding contacts. The actuation device may be configured to establish contact with at least one of the plurality of encoding contacts when a first quantity of an actuation force is applied for generating an encoded signal. The actuation device may be configured to activate the energy conversion mechanism to generate energy when a second quantity of an actuation force greater than the first quantity is applied to the activation device. The signal output mechanism may be configured to transmit a wireless output signal using the encoded signal when the energy conversion mechanism is activated.
摘要:
The present disclosure provides a measuring head for detecting a magnetic field provided by a magnet block having three pole surfaces. The measuring head may have three magnetic conductors for conducting the magnetic field. Each magnetic conductor may include an end face, where in at least one arrangement of the three magnetic conductors, the three end faces are arranged in one plane corresponding to the arrangement of the three pole surfaces. The measuring head may also include two sensors configured to detect the magnetic field.