SU440621A1 - Contact device for monitoring ferrite cores by electromagnetic parameters during their transport - Google Patents

Description

one

The invention relates to the automation of production processes in instrument making and can be used in various automatic devices where periodic transmission of an electrical signal from a fixed part of a device to a rotating one is required.

In the known contact devices, for the periodic transmission of an electrical signal from a fixed part to a rotating transmission of an electrical signal occurs OR at the time of stopping the movable part or through a sliding contact pair. Stops degrade the performance of the machine, and the presence of a sliding contact pair distorts the transmitted signal.

The purpose of the invention is to provide periodic contact without friction over the time of transmission of an electrical signal.

The goal is achieved by the fact that the movable part of the contact device is equipped with several contact holders, each of which is designed as a spring-loaded lever with a limited angle of rotation and carries two spring-loaded contacts, and the conductive tires on the fixed part are made reciprocatingly and rotary relative to the axis of rotation of the movable part and each is provided with a protrusion interacting with a moving contact, the stationary part being provided with an abutment extending the contact holder.

The drawing shows the proposed device.

On two sides of the rotating disc 1 of the transporting disc 1 there are two non-stemmed racks 2 and 3. Below is the pillar 2, since the pillar 3 is its mirror image and they work the same way. Rack 2 is equipped with two measuring ring 4, which are rigidly connected with sleeve 5 and can rotate about its axis. The axis of rotation of the tires is also the axis of rotation of the transporting disk 1. Each tire is provided with one protrusion. On the sleeve 5 there is an eyelet 6 for fastening the spring 7 and the stop 8. On the rack there are a stop 9, an eye 10 and a stop 11, made in the form of a shut-off roller. At the periphery of the rotating transporting disk there is a predetermined number of charging slots located in uniform pitch, into which the cores 12 enter (in the drawing one charging slot is shown). The loading socket is provided with a measuring group consisting of a measuring probe 13 and a group of contacts 14-17. Each measurement group rotates with the loading slot and is positioned relative to its loading slot in such a way that the measuring probe 13 passes through the hole of the core 12 and closes the group of contacts 14-17.

On the transorting disk 1 and both sides of each loading slot, besides the measuring soil, there are two contact cores 18 and a common housing 19, to which the contact holders are pressed by springs 20. The co-holder can rotate relative to the common axis 21 and is a housing with a cam 22. The contact carrier housing has a protrusion in which two isolated contacts 23 are located. Each contact 23 rotates together with the transporting disk 1 in the same plane with the corresponding tire 4, and by pressing the protrusion of the wheel make only the return stroke movement. In its initial position, the contact 23 is returned by the spring 24.

To create a closed electrical circuit, each of the four contacts of the contact group 14-17 is connected by a flexible insulated conductor with the corresponding contact 23 of the contact-supply terminal 18, and from each bus 4 the flexible conductor goes to the high-frequency connector (no wires are shown in the drawing).

During transportation of the ferrite cores, the disk 1 rotates without stopping, the cores 12 are transferred from the storage device to the loading slots. Using various devices, in each measuring group, the measuring probe 13 passes through the aperture of the core 12 and closes the ground of the contacts 14-17.

A probe consisting of isolated halves closes a group of contacts 14-17 in such a way that one half of the probe is in contact with contacts 14 and 15, and the other with contacts 16 and 17.

The signal from the moving part to the fixed part is transmitted as follows.

After the core 12 has fallen into the loading slot, the measuring group has closed, the transporting disk 1, together with the measuring group and contact holders 18, which sit on the same axis 21, continues to rotate. Contact holders with their protrusions are engaged with the protrusions of the women 4 in such a way that each contact 23 of the contact holder contacts the protrusion of one tire. In order to ensure reliable contact between the tires and the contacts 23, the springs act on the latter. Thus, two closed electric circuits are created.

Upon further rotation of the transporting disc 1, the contact holders 18, pressed against the stop 19 by the springs 20, being in fixed engagement with the protrusions of the tires 4, rotate the tires through an angle allowing the measuring signals to pass through a closed electric circuit. Since the contact holders 18 are fixed at this time relative to one common axis of rotation, there is no friction between the contacts 23 and the protrusions of the women.

After passing the measuring signals, both contact holders 18 bump the cams 22 against the stops And fixed on the fixed racks 2 and 3, and, from} the spring 20, come out of engagement with the protrusions of the tires 4, which return to their original position with the springs 7 before the connection of the stops 8 and 9 As soon as the cams 22 with the entire working part rolling on the cutter rollers 11, the contact holders 18 also return to their original position under the action of the springs 20 until they stop 19.

Subject invention

A contact device for monitoring ferrite cores by electromagnetic parameters during their transportation, comprising a stationary part, conductive busbars, a movable part with contacts, characterized in that, in order to ensure periodic contact without friction during transmission of electrical signals, the movable part is provided with several contact holders each one is made in the form of a spring-loaded lever with a limited angle of rotation and carries two spring-loaded contacts, and the conductive busbars fixed portions are reciprocating pivoting relative to the axis of rotation podvilsnoy portion and each provided with a projection cooperating with a movable contact, wherein the stationary part is provided with abutment retraction conductive contact carrier.

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