CN216749748U - Energy-saving self-holding low-voltage relay - Google Patents
Energy-saving self-holding low-voltage relay Download PDFInfo
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- CN216749748U CN216749748U CN202220241257.6U CN202220241257U CN216749748U CN 216749748 U CN216749748 U CN 216749748U CN 202220241257 U CN202220241257 U CN 202220241257U CN 216749748 U CN216749748 U CN 216749748U
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Abstract
The utility model discloses an energy-saving self-holding low-voltage relay, which comprises a shell, a driving module arranged in the middle of the shell, and a contact mechanism arranged in the middle of the shell and matched with the driving module for operation; the driving module comprises a semi-hard magnetic static block, a semi-hard magnetic movable block matched with the semi-hard magnetic static block for use, a driving coil arranged on the side between the semi-hard magnetic static block and the semi-hard magnetic block, and a brake separating spring arranged in the middle between the semi-hard magnetic static block and the semi-hard magnetic block; the utility model adopts the form of instant energization, keeps the attraction state by the residual magnetism of the semi-hard magnetic material, and the coil does not need to be energized for a long time, thereby achieving the purposes of energy-saving operation, practicability and reliability.
Description
Technical Field
The utility model particularly relates to an energy-saving self-holding low-voltage relay.
Background
A relay is an electric control device that generates a predetermined step change in a controlled amount in an electric output circuit when a change in an input amount (excitation amount) meets a predetermined requirement. It has an interactive relationship between a control system (also called an input loop) and a controlled system (also called an output loop). It is commonly used in automated control circuits, which are actually a "recloser" that uses low current to control high current operation. Therefore, the circuit plays the roles of automatic regulation, safety protection, circuit conversion and the like. Compared with the traditional alternating current contactor, the energy-saving self-holding low-voltage relay saves more than 95% of electricity, and has very obvious energy-saving effect.
The traditional low-voltage relay is based on the working principle of 'power-on suction, charged keeping and power-off release', more than 90% of energy consumption is concentrated on magnetic hysteresis loss, eddy current loss and short circuit ring loss of an iron core in the running process, the power factor is low, the coil temperature is increased, and the service life of a relay coil is shortened. In the relay control circuit, when the power is switched on, all relays in the circuit are in a restrained state, namely, the attracted relays are attracted at the same time, the relays which are not attracted can not be attracted due to the limitation of a certain condition, and the working mode becomes a parallel working mode.
Disclosure of Invention
In view of the above, the present invention aims to provide a self-holding low-voltage relay which can operate in an energy-saving manner and is practical and reliable.
In order to solve the technical problems, the technical scheme of the utility model is as follows:
an energy-saving self-holding low-voltage relay comprises a shell, a driving module arranged in the middle of the shell, and a contact mechanism arranged in the middle of the shell and matched with the driving module for operation; the driving module comprises a semi-hard magnetic static block, a semi-hard magnetic moving block matched with the semi-hard magnetic static block, a driving coil arranged on the edge side between the semi-hard magnetic static block and the semi-hard magnetic dynamic block, and a brake separating spring arranged in the middle between the semi-hard magnetic static block and the semi-hard magnetic dynamic block.
Preferably, the top of the semi-hard magnetic block is provided with a top column.
Preferably, a spring groove is formed in the side surface of the shell assembly contact mechanism, and a spring fixing seat is arranged in the spring groove.
Preferably, the contact mechanism comprises a first fixed contact, a second fixed contact symmetrically arranged with the first fixed contact, a moving contact pushing block arranged between the first fixed contact and the second fixed contact, a moving contact clamped and fixed with the moving contact pushing block, and a contact spring clamped and fixed with the moving contact.
Preferably, the lower end of the moving contact pushing block is provided with a column groove.
Preferably, the moving contact pushing block is provided with a convex block at the upper end.
The technical effects of the utility model are mainly reflected in the following aspects:
1. the device has the characteristics of long service life, high reliability and silence;
2. the volume is small and the weight is light;
3. the energy-saving self-holding low-voltage relay adopting the semi-hard magnetic material has the advantages of no network voltage interference, no vibration, high power saving rate, no noise, no temperature rise, selectable threshold voltage, selectable time delay release and the like;
4. the coil of the conventional low-voltage relay needs to be electrified for a long time under the attraction condition, the energy-saving self-holding low-voltage relay adopts an instant electrification mode, the attraction state is kept by the residual magnetism of the semi-hard magnetic material, and the coil does not need to be electrified for a long time, so that the aim of energy-saving operation is fulfilled.
Drawings
Fig. 1 is a structural diagram of an energy-saving self-holding low-voltage relay according to the present invention;
fig. 2 is a cross-sectional view a-a of fig. 1.
Detailed Description
The following detailed description of the embodiments of the present invention is provided in order to make the technical solution of the present invention easier to understand and understand.
In the present embodiment, it should be understood that the terms "middle", "upper", "lower", "top", "right", "left", "above", "back", "middle", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of describing the present invention, and do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.
In the present embodiment, if the connection or fixing manner between the components is not specifically described, the connection or fixing manner may be a bolt fixing manner, a pin connecting manner, or the like, which is commonly used in the prior art, and therefore, details thereof are not described in the present embodiment.
Examples
An energy-saving self-holding low-voltage relay is shown in fig. 1 and comprises a shell 1, a driving module 2 arranged in the middle of the shell 1, and a contact mechanism 3 arranged in the middle of the shell 1 and matched with the driving module 2 for operation.
As shown in fig. 2, the driving module 2 includes a semi-hard magnetic stator block 21, a semi-hard magnetic rotor block 22 used in cooperation with the semi-hard magnetic stator block 21, a driving coil 23 disposed on an edge side between the semi-hard magnetic stator block 21 and the semi-hard magnetic rotor block 22, and a brake separating spring 24 disposed on a middle portion between the semi-hard magnetic stator block 21 and the semi-hard magnetic rotor block 22. And a top column 221 is arranged at the top of the semi-hard magnetic block 22. A spring groove 11 is arranged on the side surface of the shell 1, which is assembled with the contact mechanism 3, and a spring fixing seat 12 is arranged in the spring groove 11. The contact mechanism 3 comprises a first fixed contact 31, a second fixed contact 32 arranged symmetrically with the first fixed contact 31, a moving contact pushing block 33 arranged between the first fixed contact 31 and the second fixed contact 32, a moving contact 34 fixed with the moving contact pushing block 33 in a clamping manner, and a contact spring 35 fixed with the moving contact 34 in a clamping manner, wherein the other end of the contact spring 35 is fixedly embedded in the spring fixing seat 12, so that the displacement of the contact spring 35 is prevented. The lower end of the moving contact pushing block 33 is provided with a column groove 331 which can be embedded with a top column 321, so that the moving contact pushing block 33 can be conveniently jacked up by the semi-hard magnetic block 22, and the moving contact 34 is separated from the first fixed contact 31 and the second fixed contact 32. The upper end of the moving contact pushing block 33 is provided with a convex block 332, and particularly, the moving contact 34 and the moving contact pushing block 33 can be fixedly embedded.
The working principle is as follows:
when the power is switched on instantly in the reverse direction, the semi-hard magnetic block 22 is demagnetized and then separated from the semi-hard magnetic block 21 by the opening spring 24, and at the moment, the opening spring 24 can jack the semi-hard magnetic block 22, so that the moving contact pushing block 33 moves upwards, the moving contact 34 is driven to be separated from the first fixed contact 31 and the second fixed contact 32, and the opening state is maintained after the power is cut off.
When the forward direction is electrified instantly, the driving coil 23 is electrified, at the moment, the semi-hard magnetic block 22 generates magnetic attraction capacity due to electrification, moves downwards and is attached to the semi-hard magnetic block 21, and meanwhile, the moving contact pushing block 33 moves downwards, so that the moving contact 34 is driven to contact the first fixed contact 31 and the second fixed contact 32, the closing process is completed, and the closing state is maintained after the power failure.
The technical effects of the utility model are mainly reflected in the following aspects:
1. the device has the characteristics of long service life, high reliability and silence;
2. the volume is small and the weight is light;
3. the energy-saving self-holding low-voltage relay adopting the semi-hard magnetic material has the advantages of no network voltage interference, no vibration, high power saving rate, no noise, no temperature rise, selectable threshold voltage, selectable time delay release and the like;
4. the coil of the conventional low-voltage relay needs to be electrified for a long time under the attraction condition, the energy-saving self-holding low-voltage relay adopts an instant electrification mode, the attraction state is kept by the residual magnetism of the semi-hard magnetic material, and the coil does not need to be electrified for a long time, so that the aim of energy-saving operation is fulfilled.
The above are only typical examples of the present invention, and besides, the present invention may have other embodiments, and all the technical solutions formed by equivalent substitutions or equivalent changes are within the scope of the present invention as claimed.
Claims (6)
1. An energy-saving self-holding low-voltage relay comprises a shell, a driving module arranged in the middle of the shell, and a contact mechanism arranged in the middle of the shell and matched with the driving module for operation; the method is characterized in that: the driving module comprises a semi-hard magnetic static block, a semi-hard magnetic moving block matched with the semi-hard magnetic static block, a driving coil arranged on the edge side between the semi-hard magnetic static block and the semi-hard magnetic dynamic block, and a brake separating spring arranged in the middle between the semi-hard magnetic static block and the semi-hard magnetic dynamic block.
2. An energy saving self-sustaining low voltage relay as claimed in claim 1, wherein: and the top of the semi-hard magnetic moving block is provided with a top column.
3. An energy saving self-sustaining low voltage relay as claimed in claim 1, wherein: and a spring groove is formed in the side surface of the shell assembling contact mechanism, and a spring fixing seat is arranged in the spring groove.
4. An energy saving self-sustaining low-voltage relay as claimed in claim 1, wherein: the contact mechanism comprises a first fixed contact, a second fixed contact symmetrically arranged with the first fixed contact, a moving contact pushing block arranged between the first fixed contact and the second fixed contact, a moving contact clamped and fixed with the moving contact pushing block, and a contact spring clamped and fixed with the moving contact.
5. An energy saving self-sustaining low voltage relay according to claim 4, wherein: the lower end of the moving contact pushing block is provided with a column groove.
6. An energy saving self-sustaining low voltage relay according to claim 4, wherein: the upper end of the moving contact pushing block is provided with a convex block.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202220241257.6U CN216749748U (en) | 2022-01-28 | 2022-01-28 | Energy-saving self-holding low-voltage relay |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202220241257.6U CN216749748U (en) | 2022-01-28 | 2022-01-28 | Energy-saving self-holding low-voltage relay |
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CN216749748U true CN216749748U (en) | 2022-06-14 |
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CN202220241257.6U Active CN216749748U (en) | 2022-01-28 | 2022-01-28 | Energy-saving self-holding low-voltage relay |
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2022
- 2022-01-28 CN CN202220241257.6U patent/CN216749748U/en active Active
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