SU637748A2 - Filter signalling device - Google Patents

Description

The invention relates to a measuring technique and can be used as a converter in various systems operating according to the method of variable pressure differential, in which the cleaning of working media from mechanical inclusions is necessary.

Known signaling the filter on author. St. jV 532776, containing a sensing element, a screen, a magnet and an electrical magician (fixed contact, in which the sensitive element is rigidly connected to a screen located inside the ring magnet, and inside the screen there is a magnetic Ij contact.

The disadvantages of the known filter signaling device are low sensitivity and high response differential, associated with a small slope of the change in magnetic flux depending on the movement of the ferromagnetic screen, as well as the low response accuracy and low vibration stability in the range of pressure differences close to the response point.

The aim of the invention is to improve the accuracy with the improvement of the vibration

stability and reduction of the response differential.

This is achieved by those. that the proposed filter detector introduces an additional ferromagnetic shield rigidly connected to the sleeve of the magnetically controlled contact, and pole lugs with a gap are installed in the inner part of the ring magnet, with a gap of -0.3 from the height of the ring magnet.

The invention is illustrated in the drawing.

The filter detector includes a housing I made of a non-magnetic material, a sensitive element 2, a ferromagnetic shield 3, an additional ferromagnetic shield 4, a nut 5, ring permanent magnets 6, face pole tips 7, an electrical magnetic control contact (reed switch) 8. reed switch 9, lock nut ten.

Claims (2)

The sensing element 2 is made in the form of a membrane box of non-magnetic material, the lower membrane of which is attached to the housing 1, and a ferromagnetic screen 3 is rigidly attached to the upper membrane, inside which is located the sleeve 9 with an electric magnetically controlled contact (reed switch) 8. Additional ferromagnetic screen 4 covers with a gap the sleeve of the reed switch 9 and is rigidly connected to it with one end. The second (free) end of the screen 4 is located at the level of the contact gap of the reed switch 8. The housing I has holes 11 and (2 for supplying a pressure difference, the total pressure (greater) is supplied through hole P, and the static (lower) pressure - through hole 12 A thread 13 is made on the outer part of the housing, on which a nut 5 is fastened with permanent magnets 6 fixed in it. After adjusting, nut 5 is stopped by a lock nut 10. Magnets 6 in nut 5 are arranged so that their magnetic fluxes are directed inwards. In the inner part of the ring magnets 6, flanged pole ends 7, made of a ferromagnetic M 1 Series, are soldered. The flanges 14, 15 of the pole pieces 7 are adjacent to the poles (end surfaces) of the magnets 6, and between the pole pieces 7, a gap 56 is formed to form and pass a narrow magnetic flux beam. The gap is 0.1-0.3 of the height of the ring magnet. The reed switch 8 is located in the field of magnetic flux created by the magnets 6, in the sleeve 9. The cavity between the reed switch 8 and the inner surface of the sleeve 9 is filled with sealing insulating paste 7. The Gershen circuit is powered and the signal is emitted via the switching wires 18. The filter detector works as follows in a way. In the initial position, in the absence of a pressure difference (to which the sensor is tuned), the magnetic flux created by the magnets 6 and pole pieces 7, which preliminarily form the magnetic flux configuration in the contact gap of the reed switch (first magnetic flux concentrator), acts on the reed switch contacts and closes them, issuing sig1 ) al about the absence of a given pressure difference. As the pressure difference on the sensing element 2 increases, a second magnetic flux concentration stage takes effect, which consists of an additional (fixed) ferromagnetic screen 4 and a ferromagnetic screen 3 (moving) associated with the sensing element 2. Moving the screen 3 increases the magnetic flux in the area of the contact gap of the reed switch by varying power of the magnetic flux by screens 3 and 4. The increase in the magnetic flux continues until the magnetic resistance of the gap between the screens starts to shunt the contact gap of the reed switch. When the specified pressure difference is reached, the magnetic flux in the contact gap of the reed switch decreases so that the reed switch contacts open, giving a signal that the specified pressure difference has been reached. With a sharp increase in the pressure difference, the screen 3 together with the upper membrane of the element 2 moves until the upper membrane reaches yriopa 19 of housing 1, thus eliminating its breakage. Decreasing the pressure difference below a predetermined value returns screen 3 to. the initial soldering, the magnetic flux increases and the reed switch contacts again close. The filter clipper can be used in the Ka4ecTiBe sensor or differential pressure alarm and has improved metrological characteristics. Claims The filter detector according to the author. St. No. 532776, characterized in that, in order to improve accuracy by improving vibration stability and decreasing the response differential, an additional ferromagnetic shield is inserted, rigidly connected to the sleeve of the magnetically controlled contact, and in the inner part of the ring magnet there are pole tips with a gap This gap is 0.1-0.3 of the height of the ring magnet. Sources of information accepted during the examination: 1. USSR Copyright Certificate No. 532776, cl. G 01 L 19/12, 1S74. IS 17