The present disclosure pertains to the technical field of circuit breakers, and in particular relates to a locking device for a circuit breaker operating device (a locking device for circuit breaker operation device).
Circuit breakers are divided into high-voltage circuit breakers and low-voltage circuit breakers according to their scopes of use. The low-voltage circuit breaker is also referred to as an automatic switch, which is an electrical appliance that acts as a manual switch and can also automatically perform voltage-loss, under-voltage, overload, and short-circuit protection. It can be used for distribution of electrical energy, infrequent starting of an asynchronous motor, and protection of power circuit, motor, and the like. Circuits can be automatically cut off when they have severe failures such as overload or short-circuit and under-voltage failures. The circuit breaker functions equivalently to a combination of fuse switch and over-heat or under-heat relay or the like, and it is generally unnecessary to change parts or components after the failure current is interrupted, therefore the circuit breakers have been widely used.
Circuit breakers are divided into a plug-in type, a fixed type, and a drawer type according to installation modes. The plug-in type circuit breakers can be used for effectively improving the safety in the industries where electrical equipment is used. As the plug-in type circuit breakers are widely used in various electrical equipment, the plug-in type circuit breakers have been developed to have various structures in order to meet the requirements for installation in various different electrical equipment. In the arrangements of currently existing traditional plug-in type circuit breaker products at installation positions, in general, the circuit breaker is closed by pressing an operation button, the operation button of the circuit breaker is resiliently restored to its initial position upon the operating force is removed, and the circuit breaker is disconnected when the button is pressed again. In this traditional installation mode, the circuit breaker can be switched on by pressing the operation button despite whether the circuit breaker has been installed in a cabinet. When a circuit breaker is plugged into the cabinet in a state where the circuit breaker has been connected with wires and the circuit breaker has been closed, a small electric arc will be generated between a wiring terminal of the circuit breaker and a busbar, which may endanger the safety of neighboring equipment.
An object of the present disclosure is to solve the technical problem in the prior art that when a circuit breaker is plugged into the cabinet in a state where the circuit breaker has been connected with wires and the circuit breaker has been closed, a small electric arc will be generated between a wiring terminal of the circuit breaker and a busbar, which may endanger the safety of neighboring equipment. A locking mechanism for a circuit breaker operating device is provided, wherein a locking member is added inside the circuit breaker, so that the circuit breaker can be closed by pressing an operation button only after a first lock button is depressed, and the circuit breaker is disconnected when the operation button is pulled out; when the first lock button is not depressed, the operation button is locked by the first lock button, the operation button cannot be pressed, and thus the circuit breaker cannot be closed. No electric arc is generated between a wiring terminal of the circuit breaker and a busbar, and accordingly the safety of the equipment is ensured.
In order to achieve the above technical objective, a locking mechanism for a circuit breaker operating device is designed in the present disclosure, which comprises a housing, a button mounted in a button slot of the housing, wherein the housing is provided therein with a locking member, and the locking member can lock or unlock the button.
Further, the locking member includes a first lock button, the first lock button is mounted to an inner wall of the housing via a first shaft and is rotatable about the first shaft, a first limiting boss is provided at a left end of the first lock button, the button is provided with a first limiting step corresponding to the first limiting boss, a first locking boss is provided on a right upper end surface of the first lock button, the housing is provided with a first limiting slot hole corresponding to the first locking boss, a first torsion spring is mounted to the housing, and one end of the first torsion spring rests on a lower surface of the first lock button located on a right side of the first shaft.
Further, a groove is provided on the lower surface of the first lock button located on the right side of the first shaft, a barb boss corresponding to the groove is provided on an outer side surface of the first lock button, and the one end of the first torsion spring rests in the groove and abuts against the barb boss.
Further, the locking member includes a second lock button, the second lock button is mounted to an inner wall of the housing via a second shaft and is rotatable about the second shaft, a limiting lever extends from a right side of the second lock button, a handle is provided with a second limiting step corresponding to the limiting lever, the handle is mounted to the inner wall of the housing via a third shaft and is rotatable about the third shaft, the button is connected to the handle via a connecting rod, a second locking boss is provided at a left upper end of the second lock button, the housing is provided with a second limiting slot hole corresponding to the second locking boss, a second torsion spring is mounted to the housing, and the second torsion spring has one end resting on a lower surface of the second lock button located on a left side of the second shaft.
Preferably, the connecting rod is a U-shaped connecting rod.
In a locking mechanism for a circuit breaker operating device according to the present disclosure, a locking member is added in the circuit breaker, so that the circuit breaker can be closed by pressing an operation button only after a first lock button is depressed, and the circuit breaker is disconnected when the operation button is pulled out; when the first lock button is not depressed, the operation button is locked by the first lock button, the operation button cannot be pressed, and thus the circuit breaker cannot be closed. No electric arc is generated between a wiring terminal of the circuit breaker and a busbar, and accordingly the safety of the equipment is ensured.
The present disclosure is further described below with reference to the accompanying drawings and embodiments.
A locking mechanism for a circuit breaker operating device comprises a housing 1, a button 2 mounted in a button slot 101 of the housing 1. The housing 1 is provided therein with a locking member 3, and the locking member 3 can lock or unlock the button 2.
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The structures, proportions, sizes, quantities, and the like depicted in the drawings appended to the embodiments are only used to cooperate the contents disclosed in the specification, to facilitate understanding and reading by those skilled in the art, and are not intended to limit restrictive conditions where the present disclosure is implementable, and therefore do not have a technically essential meaning. Any modification in structure, change in proportion relationship, or adjustment in size, without affecting the efficacy that can be generated by the present disclosure and the object that can be achieved by the present disclosure, should fall within the scope that can be covered by the technical content disclosed in the present disclosure. Moreover, terms such as “upper”, “lower”, “left”, “right”, “middle”, “clockwise”, “counterclockwise”, and the like cited in this specification are also only intended to facilitate clear description, but are not intended to limit the scope where the present disclosure is implementable, and a change or adjustment in a relative relationship thereof, without essentially changing the technical content, should also be considered as falling within the scope where the present disclosure is implementable.
Number | Date | Country | Kind |
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201711022046.3 | Oct 2017 | CN | national |
Filing Document | Filing Date | Country | Kind |
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PCT/CN2018/110713 | 10/17/2018 | WO | 00 |