SU815630A1 - Moving body position pickup - Google Patents

Description

(54) SENSOR OF THE POSITION OF THE MIXED BODY of it of the shunt end 4, in which the regulator is connected (not shown in the drawing). To control the movement of shunt 4 within the zone of each discrete step TQ below discrete sensors 2, on the outside of housing 1, a movement sensor 5 is mounted as a block consisting of n separate inductive sensors 6. Shunt 4 located inside the housing 1 is made in the form of an equidistant set of magnetic (ferromagnetic) rings 7, connected to a non-magnetic rod 8 and separated by non-magnetic rings 9. In the block, for each inductive sensor, the number of poles 10 can be equal to two or three. Depending on the required interval b between the output signals of the sensor, it is measured. So, for inductive sensors b, made with two poles -10, the interval between signals is 1 / n of step 1 of shunt 4, and for inductive sensors b, performed with three poles 10, the interval between signals is 1 / 2n steps of Tch shunt 4. The minimum number of inductive sensors b in the unit may be equal to three. The largest is any real number, starting from three. By varying the number of inductive sensors b and the number of poles 10, any interval between adjacent output signals of the displacement sensor can be obtained, while the inductive sensors b can be made as two-winding, connected to a transformer and four-winding,. connected by a bridge circuit. FIG. 1 shows a position sensor in which the block of the displacement sensor 5 contains the minimum number of inductive sensors b, i.e. Three, and each sensor b consists of three poles 10, between which four windings are connected in pairs, connected by a bridge circuit. The position sensor operates as follows. The position of shunt 4 is determined by the combined readings of discrete position sensors 2 and displacement sensor 5 containing a block of three inductive sensors 6. When the upper end of shunt 4 reaches the second pole of any sensor 2, then the output of this sensor a signal appears that is proportional to the position of the displacement of the body, with each sensor 2 having its own receiving device, which makes it possible to determine from which sensor 2 the signal comes. For greater accuracy within the discrete pitch Tg (i.e., between the imaginary sensors 2), the position of the projected body is determined with the encouragement of the displacement sensor 5. Performing in the block inductive atchs b with pitch Tj, other than aha shunt T. ,, by the value ± n (p-1) where in the particular case n 3 and P 3, allows shunt 4 to be moved one step at a time Tsch twice a shunt 4 magnetic circuit in inductive sensors 6 and provides output signals with an interval t. I p-I) in strict order (see. Fig. 2), for example 1, 2, 3 during the downward stroke and 1, 3, 2 during the upward, as shown in the pie chart (Fig. 3) for a block of three sensors b. The numbers 1, 2, 3 indicate the sequence number of the inductive sensors b and the corresponding output signals (figure 2). By alternating the output signals of the sensors b (1, 2, 3 or 1, 3, 2), the direction of movement of the body is determined. Claims of the moving body position sensor, comprising a housing, from the outside of which inductive discrete sensors and movements are mounted, a shunt placed inside the housing, connected to the moving body and made in the form of rings of magnetic material, characterized in that in order to determine the direction of movement The displacement transducer is made in the form of a block of inductive sensors, the pitch of which is associated with the pitch of the rings of the Buzz by a ratio of 1 "(- n (p-1)), the pitch of the inductive sensors in the block of the displacement transducer; TSN - step rings shunt; - the number of sensors in the unit, starting with three; p is the number of poles in one inductive sensor unit. Sources of information taken into account in the examination 1.Patent of France 2169437, cl. G 21 C 17/10, published. 1973. 2, USSR Copyright Certificate 525165, cl. G 21 S 17/12, published. 1973 (prototype).

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Claims (1)

Claim A position sensor of a moving body, comprising a housing, on the outside of which there are inductive discrete sensors and displacements, a shunt located inside the housing, connected to the moving body and made in the form of rings of magnetic material, characterized in that, in order to determine the direction of movement, the sensor displacement is made in the form of a block of inductive sensors, the pitch of which is connected with the pitch of the shunt rings by the ratio T _u \ ~ n (p-1)} "where T & is the step of the inductive sensors in the displacement sensor block; T _sh - the step of the shunt rings? η is the number of sensors in the block, starting with three; p is the number of poles in one inductive sensor of the block.