RU186144U1 - Manual drive - Google Patents

Abstract

The utility model relates to the field of electrical engineering, in particular to the device of manual drives for switching on / off electromagnetic switching devices. The manual drive of the device includes a handle, a position lock and elements that transmit force from the handle and provide reciprocating movement of the device beam: (bracket, lever, etc.) and the cover of the device with a groove for the lock. The latch is made in the form of a cylinder with an open groove and mounted on the end of the handle with the ability to move and fix the groove of the lid of the device without using a tool (operator’s hand). The technical result is the optimization of the design solutions of the manual drive of electromagnetic modular apparatuses for the implementation of the maintenance of the forced switching mode (blocking in the "on" position) without the use of additional tools with visual control of the fixation of the manual drive. 2 ill.

Description

The utility model relates to electrical engineering, in particular to the device of manual drives for switching on and off electromagnetic switching devices, intended for use in control systems, switching and automation of various devices and objects, for example, electric motors.

Known electromagnetic modular contactors, for example, contactors of the iCT series, designed for switching electrical circuits with currents of 10-100 A. [Schneider Electric company catalog "iCT Contactors" [Electronic resource] - URL: http://download.schneider-electric.com/ files? p File Id = 1592636 & p File Name = MKP-CAT-A9iCT-10.pdf |, including versions of manually operated contactors. Manual control modular contactors, as a rule, can be in one of three states (they have three operating modes): disconnected, switched on, and in automatic control mode. The operation mode is switched either remotely by supplying voltage to the contactor control circuit, or manually by switching the manual drive mechanism to the standard “Off”, “On” or “Auto” positions. At the same time, for manually operated contactors, the switching state “Enabled” can be provided for a long time without power consumption, which is one of the advantages that determine the widespread use of modular contactors with manual control. The results of the analysis of the device and kinematics of existing electromagnetic modular contactors confirm that they have a wide variety of designs depending on the field of application (stationary or moving objects, etc.) and the requirements of the destination (rated current, number of contacts, etc.). A characteristic feature of electromagnetic modular contactors is the complexity of their designs, associated mainly with the design of a manual drive.

A modular contactor usually consists of the following main components: a magnetic system, a contact system, a cover and a manual drive. The manual drive consists of a handle, a latch and a mechanism transmitting the movement of the traverse, and containing, for example, gears, levers, springs and other details.

For well-known iCT series contactors, when the hand drive handle is switched to the “On” position, the handle moves along the cover, rotating the gear, which is engaged with the traverse. In this case, the traverse makes a translational motion, closing the electrical contacts. Opening contacts, i.e. Disconnecting (returning) the contactor is done by moving the handle of the manual drive to the “Off” position or by applying and then removing voltage from the control circuit of the contactor. They also have an on-hold hold mode (forced on mode), in which the contactor remains on even after applying and removing voltage from the control circuit. This mode is ensured by mechanical fixation of the handle relative to the cover, for which the lock located inside the handle is shifted into the groove made in the contactor cover. The drawback of the design of the manual drive of the iCT series contactors is the need to use additional tools to switch the latch and the lack of visual visual control of the state of its position, which can lead to emergency situations during operation.

The considered design of the manual drive of iCT contactors is the closest to the claimed utility model (prototype) and has a combination of features closest to the set of essential features of the claimed utility model: a handle with the ability to move along the lid of the device and a position lock.

The task of creating a utility model is to optimize the design solutions of the manual drive of electromagnetic switching devices, for example, modular contactors, for the implementation of the forced on mode (the device is locked in the "On" position) without the use of additional tools with visual control of the presence of a manual drive lock.

The technical result of the utility model is achieved by the fact that in a manual drive containing a handle that can be moved along the apparatus lid and setting the yoke in motion and a position lock installed on the end of the apparatus handle, the position lock is made in the form of a cylinder with an open groove that can be moved along the end of the handle and with the possibility of fixing for the groove of the lid of the device without the use of an additional tool (operator’s hand). This provides a clear visualization of the fixed (enabled forced on) or non-locked state of the drive.

The essence of the utility model consists in making the manual drive lock in the form of a cylinder with an open groove and making a recess in the apparatus cover according to the size of the lock, allowing forcing to be activated by moving the lock along the handle and fixing for the groove (recess) of the cover, as well as providing visual control the state of the lock of the manual drive due to its easily accessible ™ and visibility for the operator.

The design of the proposed manual drive of the electromagnetic switching device using the electromagnetic drive of a modular contactor as an example is illustrated by the images shown in FIG. 1 and 2:

FIG. 1 - General view of the manual drive of the contactor in the on state when the forced-on mode is off;

FIG. 2 - General view of the manual drive of the contactor in the forced on mode.

The manual drive consists of a handle 1, a position lock 2 made in the form of a cylinder with an open groove, auxiliary structural elements that transmit force from the handle 1 and provide reciprocating movement of the beam 3 of the apparatus (bracket 4, lever 5) and the cover with a groove 6.

To switch the manual drive to the forced-hold hold mode, the operator sets the handle 1 to the “On” position, while the handle 1 through the auxiliary structural elements drives the yoke 3 and the electrical contacts 7 of the device are closed, then the operator moves the latch 2 along the end of the handle 1 and inserts the latch 2 in the groove of the lid 8. In this case, the latch 2 is clearly fixed in the groove of the lid 8 and does not allow the handle 1 to move. Also, this provides a clear visualization of the manual drive in p forced inclusion.

Applying or removing voltage from the control circuit of the apparatus in no way affects the state of the contactor.

The forced hold hold mode is disabled by the operator manually, without using any special tools (by the operator’s hand), by releasing the latch 2 from the mesh with the lid 8 of the device.

The utility model is used to create manually controlled electromagnetic modular contactors, which are in demand in the power supply systems of new technology.

The results of the development, manufacture and testing of prototypes of contactors with the described design of the manual drive showed the receipt of the claimed technical result.

Claims (1)

A manual drive of the apparatus, comprising a handle moving along the cover of the apparatus and driving the yoke of the apparatus, and a position lock, characterized in that the position lock is made in the form of a cylinder with an open groove and is mounted on the end face of the handle with the ability to move and fix the groove of the apparatus cover without application of the tool (operator's hand).

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