SU674112A1 - On-route change-over switch - Google Patents

Claims (2)

The rhgo is located symmetrically relative to the JHO poles of the magnet, the reed switch is often placed in the indicated holes of the tek, that its longitudinal axis coincides with the axes of the holes, and the magnets are arranged symmetrically relative to the axis of overlap of the reed switch core. The magnets can be made in the form of Hmd1O1 / a and corilindric. FIG. 1 is given the construction-gavna scheme of the switchable switch; in fig. 2 is a diagram illustrating the principle of operation of the Rule, the Transfer | klk Tatel consists of the HeMarHH hcgkatatshichy or para-mass body 1 and placing two new MarJatHTOB 2 and 3 in it, and the symbol of the 5-point neutral closing reed switch 4. Magnets 2 and 3 are cylindrical magnets with a diameter of about 1 meter from the version for another reed switch 4. It is possible to make magnets 2 and 3 in the form of an o-coat rectangular prism (x σ t and is perpendicular to the axis of the x-axis and symmetrical with respect to Mapita poles. Hole size according to It corresponds to the diameter of the repcotia flask, thus ensuring the cKSpaaoM coaxiality of the distribution of the helix axis of the helix) relative to the pole of the magnets. Magnets 2 and 3 May have o-friction / sizing SOTO. exceeds the diameter of the reed switch bulb. 4. In this case, the symmetry of the location of the longitudinal axis of the reed switch relative to the poles of the magnets is provided by soldering tubes 5, which are hoped for the conclusions of the hook. In the proposed switch magnets are used, o-wool in which have a square cross-section, which allowed one of the connecting wires 6 to continue in the corners of overegay. . Magnets 2 and 3 are relative to each flpQfga by parsed poles of the same name. on the opposite side. The distance between the magnets 2 and 3 is smaller than the general length of the reed switch, and held by the non-magnetic distance sleeve 7 From the displacement of the switch 1, the delays of the switch are kept split non-magnetic washer 8. The symmetry of the position of the reed switch 4 is attributed. Magnets 2 and 3 are maintained with the help of special support plate 9, into which the reed switch rests against the end of one of the cores. The symmetry of the longitudinal axis of the reed switch 4 relative to the poles of the magnets 2 and 3 and the symmetry of the overlay of the reed switch relative to the magnets ensures that there is no magnetic flux in the working gap and, as a result, the vibration and impact resistance is increased or the control ferromagnetic body 10 is not sufficiently removed self-contained part or part of the controlled mechanism .; The execution of magnets and other parts of the switch in the form of bodies of rotation, with a small gap matching the outer surface of the inner surface of the cylindrical body 1, reduces the size of the switch and provides a fairly simple assembly technology, during which parts of the switch are inserted in an established order without effort in the case. At 9TOM, parts 2, 3, 7 and 9 can be assembled and connected in advance into a separate rigid block. The internal cavity of the switch housing body 1 after the assembly is filled with the compound to obtain a mechanically strong and insensitive to the influence of the external structure. Case 1, which serves as a protective casing for the parts contained in it, is threaded and milled with a size under KLICH, which allows you to install p; ecLychatel screwing it into the threaded hole and (or) securing it the nuts 11. the switch for the required operating distance is made without removing it from the installation site by turning the housing 1 along the thread. The switch operates as follows. In the absence near the switch of the ferromat of the bare control body 10, the magnetic system of the switch is symmetric, the fluxes F and F (2) are equal And directed oppositely and the resulting flux F in the working gap of the reed switch 4 is zero. If, with this arrangement of the control body 10, the contacts of the hercade 4 are briefly closed (for example, due to the impact of a vibration or impact switch), then after the end of the mechanical action, they open, as the specified ratio (F) (the magnetic fluxes in the reed switch continue to hold. C A close proximity of the ferromagnetic body 10 to the poles of the magnets 2 and 3, located on one side, the symmetry of the magnetic system of the switch is broken, the flow F, which has the direction of flow 4 or increases, in the working gap of the reed switch 4 H depending on which side of the switch the controlling ferromagnetic body is approaching Approaching the ferromagnetic body 1b causes an increase in flux Φ. When the resultant flux Φ reaches the value of the flux, trigger the heron 4 its closure of the ferromagnetic body 1O yards and correspondingly remit. the flux F is reduced, and if the last one is equal to the flux of the reed switch 4, its contacts open. The formula was invented as well. 1. A path switch containing a movable ferromagnetic control body and a nonmagnetic body with reed switches and magnets placed in it and located along the sides of the magnetic core of the reed switch magnetizing perpendicular to its longitudinal axis and facing the ferromagnetic body perpendicular to its longitudinal axis and facing the ferromagnetic body opposite to its ferromagnetic body. poles, characterized in that, in order to increase reliability by increasing the vibration-impact resistance of a switch in an out-of-position position, each magnet is made with a hole, the axis of which is piacé sho is symmetrically relative to the pole of the magnet, the reed switch is partially placed in the indicated holes ı x so that its longitudinal axis coincides with the axes of the holes, and the magnets are arranged symmetrically relative (X: the axis of the TrepKOHfli overlap. 2. Switch on Clause 1 This is due to the fact that the mashits are made in the form of cylinders, and the casing is cylindrical. Sources of information taken into account for examination 1. Magnet-controlled sealed devices. M., Informstandard Electro, 1967, h. If, p. 39, fig. 27. 2. The patent of Germany No. 1588592, cl. 21 p 57/70, 1970.