The present invention relates to the field of dual-power switches, and in particular to a dual-power overlapped closing operation mechanism.
When a traditional dual-power switch is switched from a normal power supply state to a standby power supply state, a load N-phase connection terminal has a transient vacated phenomenon. In practical applications, a neutral line drift voltage generated as a result of a zero line break is up to dozens or even hundreds of volts, which is possible to cause damage to electric devices, for example, to directly cause the server to restart or burn out, and thus there are significant security risks.
A dual-power switch with a neutral line overlapped switching function is disclosed in the patent 201010105826.6. A normal N-phase movable contact assembly of the dual-power switch comprises a normal driving part and a connecting part, which are respectively fixedly and rotatably mounted on a normal driving square shaft; a standby N-phase movable contact assembly comprises a standby driving part and a connecting part, which are respectively fixedly and rotatably mounted on a standby driving square shaft; the normal driving part is used to cooperate with the standby connecting part to drive a movable contact of the standby N-phase movable contact assembly to be in electrical contact with a N-phase fixed contact or to break the electrical contact with the N-phase fixed contact; and the standby driving part is used to cooperate with the normal connecting part to drive a movable contact of the normal N-phase movable contact assembly to break the electrical contact with the N-phase fixed contact or to be in electrical contact with the N-phase fixed contact. In the present invention, the neutral line “vacated” phenomenon can be avoided during the switching of the dual-power switch, which effectively protects electric devices. But in existing structures, a contact connecting rod doesn't pass the dead point, which is achieved only by delay action of the connecting rod, so that the neutral line overlapping has a short duration, and the contacts are easy to malfunction, so it is still possible to lead to a zero line break, and thus there are still significant security risks.
Therefore, those skilled in the art are devoted to develop a new dual-power overlapped closing operation mechanism, with which the neutral line overlapping has an extended duration and is maintained by means of a mechanical structure all the time during movement of the mechanism, so as to achieve a stable and reliable action of the closing operation.
In view of the above defects of the prior art, the technical problem to be solved by the present invention is how to avoid the occurrence of zero line break to effectively protect the security of electric devices.
In order to realize the above purpose, the present invention provides a dual-power overlapped closing operation mechanism, comprising a first contact, a second contact, a first connecting rod, a second connecting rod, a third connecting rod, a fourth connecting rod, a fifth connecting rod, a sixth connecting rod, a seventh connecting rod, a first fixed contact, a second fixed contact, a first auxiliary shaft, a second auxiliary shaft and a third auxiliary shaft; wherein the first auxiliary shaft, the second auxiliary shaft and the third auxiliary shaft are arranged in parallel, and the second auxiliary shaft is located between the first auxiliary shaft and the third auxiliary shaft; the first contact is located on one side of the first auxiliary shaft, and the second contact is located on one side of the third auxiliary shaft; the first contact is connected to the first auxiliary shaft via the first connecting rod and the second connecting rod, the second contact is connected to the third auxiliary shaft via the sixth connecting rod and the seventh connecting rod, and the fourth connecting rod is fixedly connected to the second auxiliary shaft; one end of the third connecting rod is connected to the fourth connecting rod, and the other end thereof is connected to a joint between the first connecting rod and the second connecting rod; one end of the fifth connecting rod is connected to a joint between the third connecting rod and the fourth connecting rod, and the other end thereof is connected to a joint between the sixth connecting rod and the seventh connecting rod; the first contact is in electrical contact with the first fixed contact when the first contact is closed, and the first contact breaks the electrical contact with the first fixed contact when the first contact is opened; the second contact is in electrical contact with the second fixed contact when the second contact is closed, and the second contact breaks the electrical contact with the second fixed contact when the second contact is opened;
the fourth connecting rod follows the second auxiliary shaft to rotate clockwise or anticlockwise; the fourth connecting rod rotates anticlockwise to push, via the fifth connecting rod and the seventh connecting rod, the second contact to make electrical contact with the second fixed contact, and at the same time the first contact is first further tightly pressed via the first connecting rod and the third connecting rod until the dead point is passed, and then the first contact is gradually opened clockwise; during the process from opening to closing the second contact and the second fixed contact, the first contact and the first fixed contact are in a closed state all the time until the second contact and the second fixed contact have been in the closed state for a period of time, and then the first contact is gradually opened; the fourth connecting rod rotates clockwise to push, via the third connecting rod and the first connecting rod, the first contact to make electrical contact with the first fixed contact, and at the same time the second contact is first further tightly pressed via the fifth connecting rod and the seventh connecting rod until the dead point is passed, and then the second contact is gradually opened clockwise; and during the process from opening to closing the first contact and the first fixed contact, the second contact and the second fixed contact are in a closed state all the time until the first contact and the first fixed contact have been in the closed state for a period of time, and then the second contact is gradually opened.
Further, the mechanism further comprises a first main shaft and a second main shaft arranged in parallel to each other, wherein one side of the first main shaft is fixedly connected to a third gear, and an extension line of the other side of the first main shaft is provided with the third auxiliary shaft; one side of the second main shaft is fixedly connected to a first gear, and an extension line of the other side of the second main shaft is provided with the first auxiliary shaft; a second gear is located between the first gear and the third gear; the first gear, the second gear and the third gear mesh with each other; and the second auxiliary shaft passes through the center of the second gear and is fixedly connected to the second gear.
Further, a group of A, B and C three-phase contacts are connected on the first main shaft via a connecting rod system; and a further group of A, B and C three-phase contacts are connected on the second main shaft via a connecting rod system.
Further, the first main shaft rotates anticlockwise, and the group of A, B and C three-phase contacts on the first main shaft follow the first main shaft to switch from a closed state to an open state; and the first main shaft rotates clockwise, and the A, B and C three-phase contacts switch from the open state to the closed state.
Further, the second main shaft rotates anticlockwise, and the A, B and C three-phase contacts switch from the open state to the closed state; and the second main shaft rotates clockwise, and the A, B and C three-phase contacts switch from the closed state to the open state.
Further, both the first contact and the second contact are N-phase contacts.
Further, the first gear, the second gear and the third gear are of the same size.
Further, the first gear and the third gear are located on a same side of the first main shaft and the second main shaft.
Further, the connection at a joint of the first connecting rod, the second connecting rod and the third connecting rod is in a hinged manner, the connection at a joint of the third connecting rod, the fourth connecting rod and the fifth connecting rod is in a hinged manner, and the connection at a joint of the fifth connecting rod, the sixth connecting rod and the seventh connecting rod is in a hinged manner.
Further, the mechanism further comprises a fixing seat on which the operation mechanism is fixed.
With the dual-power overlapped closing operation mechanism provided in the present invention, the neutral line overlapping has an extended duration and is maintained by means of a mechanical structure all the time during the switching of power sources, so as to achieve stable and reliable actions, thereby significantly effectively avoiding the occurrence of a zero line break so as to stably protect electric devices.
The concept, the specific structure and the technical effects of the present invention will be further described in conjunction with the accompanying drawings in order to fully understand the objects, features and effects of the present invention.
In the figures, 1—first contact, 2—first connecting rod, 3—second connecting rod, 4—first auxiliary shaft, 5—third connecting rod, 6—fourth connecting rod, 7-second auxiliary shaft, 8—fifth connecting rod, 9—third auxiliary shaft, 10—sixth connecting rod, 11—seventh connecting rod, 12—second contact, 13—fixing seat, 14—first gear, 15—second gear, 16—third gear, 17—first fixed contact, 18—second fixed contact, 19—first main shaft, and 20—second main shaft.
Preferred embodiments of the present invention are described below with reference to the drawings of the description to make the technical contents clearer and easier to understand. The present invention can be embodied in various forms of embodiments, and the scope of protection of the present invention is not limited to the embodiments mentioned herein.
In the figures, the same reference numeral indicates components having the same structure, and similar reference numerals indicate assemblies having similar structures or functions throughout. The size and thickness of each assembly shown in the figures are shown arbitrarily, and the present invention does not define the size and thickness of each assembly. In order to make the illustration clearer, the thickness of the component in some places of the figures is appropriately exaggerated.
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The specific preferred embodiment of the present invention is described in detail as above. It should be appreciated that a person of ordinary skill in the art would be able to make modifications and variations in accordance with the concept of the present invention without involving any inventive effort. Therefore, any technical solution that can be obtained by a person skilled in the art based on the prior art by means of logic analysis, reasoning or limited trials should be within the scope of protection determined by the claims.
Number | Date | Country | Kind |
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201810532840.0 | May 2018 | CN | national |